catalog api marshal

Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipeline valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas.

“Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enter-prise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world.

The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specav-tomatika” manufactures the following product range:

— sectional ball valves;— all-welded ball valves;— short pattern flanged ball valves (shortened face-to-face dimension);— threaded end ball valves;— ball valves with an extended stem;— ball valves for application under high pressure for oil and gas working medium;— stainless steel ball valves;— cast iron and steel gauze filters;— connection flanges and fasteners.

“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN 10 to DN 500 inclusive.

Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “Gazprom-Regiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “Bolgar-Gaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc.

In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise.

It should be noted that thanks to the coordinated work of professional team on all the stages of production and dis-tribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.

About usFor notes

872

3

Sertificates

4 We reserve the right to make modification without prior notice.

Contents1 Class 150, class 300 split body MSA 01.c ball valve1.1 Full bore 1.1.1 Flanged ends design ................................................................................................................. 61.1.2 Welding ends design................................................................................................................ 101.2 Reduced bore 1.2.1 Flanged ends design................................................................................................................ 14 1.2.2 Welding ends design ............................................................................................................... 182 Class 150, class 300 split body MSA 02.c ball valve for steam applications etc.2.1 Full bore 2.1.1 Flanged ends design................................................................................................................ 22 2.1.2 Welding ends design................................................................................................................ 24 2.2 Reduced bore 2.2.1 Flanged ends design................................................................................................................ 26 2.2.2 Welding ends design................................................................................................................ 28 3. Class 150, class 300 short pattern split body MSA 05.c ball valve with flanged ends design 3.1 Full bore ....................................................................................................................................30 3.2 Reduced bore ............................................................................................................................324 Class 150, class 300 single body all-welded MSA 21.c, MSA 21.s ball valve 4.1 Full bore 4.1.1 Flanged ends ...........................................................................................................................34 4.1.2 Welding ends ...........................................................................................................................36 4.2 Reduced bore 4.2.1 Flanged ends ...........................................................................................................................38 4.2.2 Welding ends ...........................................................................................................................404.3 Full & Reduced bore 4.3.1 Flanged ends ..........................................................................................................................42 4.3.2 Welding ends ..........................................................................................................................445. Class 150, class 300 lihgtweight single body all-welded MSA 22.c, MSA 22.s ball valve with welding ends design 5.1 Reduced bore ...........................................................................................................................465. Class 150, class 300 single body all-welded with extended stem for gas applications MSA 23.c ball valve with welding ends design and highly enhanced insulation type5.1 Full bore & Reduced bore.........................................................................................................48 6 Class 150, class 300 single body all-welded with extended stem MSA 24.c ball valve for channel-free mounting in polyurethane foam6.1 Full bore 6.1.1 Flanged ends ...........................................................................................................................506.1.2 Welding ends ...........................................................................................................................52 6.2 Reduced bore 6.2.2 Welding ends ...........................................................................................................................54 7. Class 400, class 600 split body MSA 15.c ball valve7.1 Full bore7.1.1 Flanged ends ......................................................................................................................56, 607.1.2 Welding ends ......................................................................................................................58, 628 Class 150, class 300 split body MSA11.s cast ball valve made of stainless steel with flanged ends design8.1 Full bore ....................................................................................................................................649 Class 150, class 300 single body all-welded MSA 21.c.4.1, MSA 21.s.4.1 ball valve with threaded ends design9.1 Full bore & Reduced bore..........................................................................................................6610 Class 400, class 600 split body MSA 15.c.4.1 ball valve with threaded ends design10.1 Full bore ....................................................................................................................................6811 Class 150 single body polymeric MSA 55.p, MSA 56.p, MSA 57.p ball valve with welding ends design11.1 Full bore ....................................................................................................................................7012 Class 150 butterfly valves 12.1 Full bore ....................................................................................................................................7213 Class150, Class300 flanged gauze filter MSA 60.c, MSA 60.i with cast body.....................7414 Flange MSA90.c, MSA90.s with smooth raised face..............................................................7615 Stud MSA95.c, MSA95.s with threaded ends.........................................................................8116 Blind flange MSA91.c, MSA91.s with smooth raised face ...................................................82

5

How to order

XX. x. X. X. XXX. XXX

Type of control

Type of pipeline connection

Body material

Series

Series: 01 — Split body welded ball valve. 02 — Split body ball valve with welded body for steam TS from 482ºF. 05 — Split body short pattern welded ball valve. 11 — Split body ball valve with combined multiply part body. 21 — Single body all-welded ball valve. 22 — Single body lightweight all-welded ball valve. 23 — Single body all-welded ball valve with extended heavier duty insulation stem. 24 — Single body all-welded ball valve in polyurethane foam insulation for trenchless laying. 55 — Single body polypropylene ball valve. 56 — Single body polyethylene ball valve. 57 — Single body PVC ball valve. 60 — Gauze filter. 90 — Flange. 91 — Blind flange. 95 — Stud.

Body material: c — Carbon steel s — Stainless steel i — Cast iron p — Polymer

Type of pipeline connection: 1 — Flanged end 2 — Welding end 3 — Wafer-type 4 — Threaded end

Type of control: 1 — Handle 2 — Gear actuator 3 — Pneumatic actuator 4 — Hydraulic actuator

For the right ordering of a product you require, please note an appropriate product designation struc-ture shown below which we use as a description of our manufactured devices.The designation structure is as follows:

ANSI nominal pressure class

DN nominal bore

MSA

1 Body ASTM A516 Grade702 Ball ASTM A240 Type 3213 Stem ASTM A182 F6a4 Press-on bush ASTM A696 Gr705 Ball seat PTFE6 Seat ring ASTM A516 Gr707 Spring washer AISI 92608 Body gasket PTFE9 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer AISI 926016 Washer ASTM A516 Gr70

MATERIALS LISTClass 150 Class 300PRESSURE/TEMPERATURE RATING

TECHNICAL CHARACTERISTICS

DESIGN

DESIGNATION AND APPLICATION AREA

№ Part name Material


Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction.

Working pressure, not higher than.............................20 bar (Class150), 50 bar (Class300)Working medium temperature....................................from -20°F (-29°C) to +356°F (+180°C)Working medium........................................................water, gas, oil products and other medium, neutral for ball valve componentsEnvironment temperature..........................................not less than - 20°F (- 29°C)Quantity of work cycles..............................................not less than 5000Full lifetime.................................................................not less than 30 yearsPipeline connection....................................................flanged endsControl means............................................................handleFace-to-face dimension.............................................according to ASME B16.10Flanges connection....................................................according to ASME B16.5Pressure/ temperature rating....................................according to ASME/ANSI B16.34Testing and inspection...............................................according to API 6D, API 598

Ball valvesFull boreMSA 01.c

ANSI Class 150

ANSI Class 300

Code NPS/DN L D D1 D2 L1 B H Dmin d n Weight Cv/Kv


in/mm

in/mm

lb/kg

lb/kg

MS

A 0

1.c

7

MSA 01.с.1.1.150.015 ½15

4,25 108

3,5 90

2,38 60,3

1,38 34,9

7,5 190

8,6 218

3,897

0,5113

5/8 15,9 4 5,5

2,519,1 16,3

MSA 01.с.1.1.150.020 ¾20

4,62 117

3,88 100

2,75 69,9

1,69 42,9

7,5 190

8,65 220

3,94 100

0,7519

5/8 15.9 4 7,7

3,534,7 29,5

MSA 01.с.1.1.150.025 125

5127

4,25 110

3,12 79,4

250,8

7,5 190

8,7 221

4,17 106

0,9925

5/8 15,9 4 9,9

4,55043

MSA 01.с.1.1.150.032 1 ¼32

5,5 140

4,62 115

3,5 88,9

2,5 63,5

7,5 190

8,9 226

4,7120

1,2632

5/8 15,9 4 14,7

6,710489

MSA 01.с.1.1.150.040 1 ½40

6,5 165

5125

3,88 98,4

2,88 73

11,1 282

12,7 322

5,6142

1,538

5/8 15,9 4 17

7,7270230

MSA 01.с.1.1.150.050 250

7178

6150

4,75 120,7

3,62 92,1

12,2 311

14,2 360

6,2158

1,9349

3/419 4 22,9

10,4311265

MSA 01.с.1.1.150.065 2 ½65

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

14,4 365

6,5166

2,4462

3/419 4 31,2

14,2635540

MSA 01.с.1.1.150.080 380

8203

7,5 190

6 152,4

5127

15 382

17,7 450

6,6168

2,9274

3/419 4 33,4

15,21027 873

MSA 01.с.1.1.150.100 4100

9229

9230

7,5 190,5

6,19 157,2

23,7 602

27 687

7,3185

3,95 100

3/419 8 52,4

23,81635 1390

MSA 01.с.1.1.150.150 6150

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

27,9 708

9230

5,9150

7/8 22,2 8 141

642380 2024

MSA 01.с.1.1.150.200 8200

18 457

13,5 345

11,75 298,5

10,62 269,9

43,6 1108

48,8 1240

9,5243

7,9201

7/8 22,2 8 165

753200 2720

MSA 01.с.1.1.300.015 ½15

5,5140

3,7595

2,6266,7

1,3834,9

7,5190

8,7220

3,897

0,5113

5/815,9 4 7,7

3,519,116,3

MSA 01.с.1.1.300.020 ¾20

6152

4,62115

3,2582,6

1,6942,9

7,5190

8,8223

3,94100

0,7519

3/419 4 9,5

4,334,729,5

MSA 01.с.1.1.300.025 125

6,5165

4,88125

3,588,9

250,8

7,5190

8,9224

4,17106

0,9925

3/419 4 12,1

5,55043

MSA 01.с.1.1.300.032 1 ¼32

7178

5,25135

3,8898,4

2,563,5

7,5190

9229

4,7120

1,2632

3/419 4 17,6

810489

MSA 01.с.1.1.300.040 1 ½40

7,5190

6,12155

4,5114

2,8873

11,1282

12,8325

5,6142

1,538

7/822,2 4 20,8

9,45270230

MSA 01.с.1.1.300.050 250

8,5216

6,5165

5127

3,6292,1

12,2311

14,4366

6,2158

1,9349

3/419 8 29,7

13,5311265

MSA 01.с.1.1.300.065 2 ½65

9,5241

7,5190

5,88149,2

4,12104,8

12,2311

14,5369

6,5166

2,4462

7/822,2 8 39,6

18635540

MSA 01.с.1.1.300.080 380

11,12282

8,25210

6,62168,3

5127

15382

17,9455

6,6168

2,9274

7/822,2 8 55

251027873

MSA 01.с.1.1.300.100 4100

12305

10255

7,88200

6,19157,2

23,7602

27,4695

7,3185

3,95100

7/822,2 8 81,4

3716351390

DIMENSIONS & WEIGHT

Working pressure, not higher than...................20bar (Class150), 50bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium..............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature................................not less than - 20°F (- 29°C)Quantity of work cycles...................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection.........................................flanged endsControl means................................................actuator handwheelFace-to-face dimension..................................according to ASME B16.10Flanges connection........................................according to ASME B16.5Pressure/ temperature rating..........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598



DESIGN


1 Body ASTM A516 Grade702 Ball ASTM A240 Type 3213 Stem ASTM A182 F6a4 Press-on bush ASTM A696 Gr705 Ball seat PTFE6 Seat ring ASTM A516 Gr707 Spring ASTM B637 Gr6888 Trunion ASTM A216 WCB9 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handwheel ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer AISI 9260



Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction.




MSA 01.с.1.3.150.200 8200

18457

13,5345

11,75298,5

10,62269,9

23,6 600

20,5 521

7,9 201

7/8 22,2 8 265

12032002720

MSA 01.с.1.3.150.250 10250

21533

16405

14,25362

12,75323,8

23,6 600

22 559

9,92 252

1 25,4 12 462

21015000 12750

MSA 01.с.1.3.150.300 12300

24610

19485

17431,8

15381

24 610

26 660

11,93 303

1 25,4 12 1189

53823000 19550

MSA 01.c.1.3.150.350 14350

27686

21535

18,75476,3

16,25412,8

27 686

27,1 688

13,1 334

1 1/8 28,6 12 1606

73029900 25415

MSA 01.с.1.3.150.400 16400

30762

23,5595

21,25539,8

18,5469,9

30 762

28,3 719

15,2 385

1 1/8 28,6 16 2244

102037200 31620

MSA 01.с.1.3.150.500 20500

36914

27,5700

25635

23584,2

36 914

36,8 935

19,2 487

1 1/4 31,75 20 4257

193559000 50150

MSA 01.с.1.3.150.600 24600

421067

32815

29,5749,3

27,25692,2

42 1067

43,7 1110

23,2 589

1 3/8 34,9 20 6285

285792000 78200

MSA 01.c.1.3.300.150 6150

15,88 403

12,5 320

10,62 269,9

8,5 215,9

15,9 403

17,87 454

5,9150

7/8 22,2 12 264

12023802024

MSA 01.с.1.3.300.200 8200

19,75 502

15 380

13 330

10,62 269,9

19,7 502

20,7 526

7,9201

125,4 12 616

28032002720

MSA 01.с.1.3.300.250 10250

22,38 568

17,5 445

15,52 387,4

12,75 323,8

22,38 568

24,8 630

9,92 252

1 1/8 28,6 16 1254

57015000 12750

MSA 01.с.1.3.300.300 12300

25,5 648

20,5 520

17,75 450,8

15 381

25,5 648

26,4 670

11,93 303

1 1/4 31,75 16 1672

76023000 19550

MSA 01.с.1.3.300.350 14350

30 762

23 585

20,25 514,4

16,25 412,8

30 762

27,2 690

13,1 334

1 1/4 31,75 20 1969

89529900 25415

MSA 01.с.1.3.300.400 16400

33 838

25,5 650

22,5 571,5

18,5 469,9

33 838

28,3 720

15,2 385

1 3/8 34,9 20 2838

129037200 31620

MSA 01.с.1.3.300.500 20500

39 991

30,5 775

27 685,8

23 584,2

39 591

36,8 935

19,2 487

1 3/8 34,9 24 4484

203859000 50150

MSA 01.с.1.3.300.600 24600

45 1143

36 915

32 812,8

27,75 692,2

45 1143

43,7 1110

23,2 589

1 5/8 41,3 24 6699

304592000 78200

ANSI Class 150

ANSI Class 300

Code NPS/DN L D D1 D2 B H Dmin d n Weight Cv/Kv


in/mm

in/mm

lb/kg

lb/kg MS

A 0

1.c

9

DIMENSIONS & WEIGHT

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction

Working pressure, not higher than.................20bar (Class150), 50bar (Class300)Working medium temperature........................from -20°F (-29°C) to +356°F(+180°C)Working medium............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature..............................not less than - 20°F (- 29°C)Quantity of work cycles.................................not less than 5000Full lifetime....................................................not less than 30 yearsPipeline connection.......................................welding endControl means..............................................handleEnd-to-end dimension..................................according to ASME B16.10Butt welding end...........................................according to ASME B16.25Pressure/ temperature rating........................according to ASME/ANSI B16.34Testing and inspection...................................according to API 6D, API 598



DESIGN


1 Body ASTM A516 Grade702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM A516 Gr708 Spring washer AISI 92609 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer AISI 926017 Washer ASTM A516 Gr70




MSA 01.с.2.1.150.015 ½15

5,5 140

0,84 21,33

3,895

0,147 3,73

7,5 190

3,897

0,5113

5,52,4

19,116,3

MSA 01.с.2.1.150.020 ¾20

6152

1,05 26,75

4,2 105

0,154 3,91

7,5 190

3,94100

0,7519

6,22,8

34,729,5

MSA 01.с.2.1.150.025 125

6,5 165

1.315 33,4

4,6 115

0,179 4,55

7,5 190

4,17106

0,9925

7,73,5

5043

MSA 01.с.2.1.150.032 1 ¼32

7178

1,66 42,2

5,4 135

0,191 4,85

7,5 190

4,7120

1,2632

12,85,8

10489

MSA 01.с.2.1.150.040 1 ½40

7,5 190

1,9 48,3

5,8 145

0,2 5,08

11,1 282

5,6142

1,538

14,36,5

270230

MSA 01.с.2.1.150.050 250

8,5 216

2,375 60,3

6,32 158

0,218 5,54

12,2 311

6,2158

1,9349

19,18,7

311265

MSA 01.с.2.1.150.065 2 ½65

9,5 241

2,875 73

7,2 180

0,25 6,35

12,2 311

6,5166

2,4462

2913,2

635540

MSA 01.с.2.1.150.080 380

11,12 282

3,5 88,9

7,56 189

0,25 6,35

15382

6,6168

2,9274

3013,6

1027873

MSA 01.с.2.1.150.100 4100

12305

4,5 114,3

9,2 230

0,281 7,14

23,7 602

7,3185

3,95100

4219,2

16351390

MSA 01.с.2.1.150.150 6150

18457

6,625 168,3

12,4 310

0,28 7,11

23,7 602

9230

5,9150

11753,2

23802024

MSA 01.с.2.1.150.200 8200

20,5 521

8,625 219,1

15,8 395

0,322 8,18

23,7 602

9,5243

7,9201

21296,5

32002720

MSA 01.с.2.1.300.015 ½15

5,5140

0,8421,3

3,895

0,1473,73

7,5190

3,897

0,5113

5,52,5

19,116,3

MSA 01.с.2.1.300.020 ¾20

6152

1,0526,7

4,2105

0,1543,91

7,5190

3,94100

0,7519

6,42,9

34,729,5

MSA 01.с.2.1.300.025 125

6,5165

1,31533,4

4,6115

0,1794,55

7,5190

4,17106

0,9925

7,93,6

5043

MSA 01.с.2.1.300.032 1 ¼32

7178

1,6642,2

5,4135

0,1914,85

7,5190

4,7120

1,2632

133,9

10489

MSA 01.с.2.1.300.040 1 ½40

7,5190

1,948,3

5,8145

0,25,08

11,1282

5,6142

1,538

14,526,6

270230

MSA 01.с.2.1.300.050 250

8,5216

2,37560,3

6,32158

0,256,35

12,2311

6,2158

1,9349

21,49,7

311265

MSA 01.с.2.1.300.065 2 ½65

9,5241

2,87573

7,2180

0,2767,01

12,2311

6,5166

2,4462

3315

635540

MSA 01.с.2.1.300.080 380

11,12282

3,588,9

7,56189

0,287,14

15382

6,6168

2,9274

39,618

1027873

MSA 01.с.2.1.300.100 4100

12305

4,5114,3

9,2230

0,3127,92

23,7602

7,3185

3,95100

48,422

16351390

ANSI Class 150

ANSI Class 300

Code NPS/DN L D A T L1 H Dmin Weight Cv/Kv


in/mm

in/mm

lb/kg

lb/kg

MS

A 0

1.c

11

DIMENSIONS & WEIGHT


Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.

Working pressure, not higher than....................20 bar (Class150), 50 bar (Class300)Working medium temperature...........................from -20°F (-29°C) to +356°F(+180°C)Working medium...............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature..................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime.......................................................not less than 30 yearsPipeline connection..........................................welding endControl means.................................................actuator handwheelEnd-to-end dimension......................................according to ASME B16.10Butt welding end...............................................according to ASME B16.25Pressure/ temperature rating...........................according to ASME/ANSI B16.34Testing and inspection.....................................according to API 6D, API 598

Class 150 Class 300


DESIGN


1 Body ASTM A516 Grade702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM A516 Gr708 Spring ASTM B637 Gr6889 Trunion ASTM A216 WCB

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Handwheel ASTM A283 GrC15 Stud ASTM A193 B7M16 Nut ASTM A194 2H17 Washer AISI 9260




MSA 01.с.2.3.150.200 8200

20,5521

8,625 219,1

0,3228,18

20,5521

7,9201

21296,5

32002720

MSA 01.с.2.3.150.250 10250

22559

10,75273

0,3659,27

22559

9,92252

444 202

15000 12750

MSA 01.с.2.3.150.300 12300

25635

12,75 323,8

0,406 10,31

26660

11,93303

1111505

23000 19550

MSA 01.c.2.3.150.350 14350

30762

14355,6

0,438 11,13

27,1688

13,1334

1474670

29900 25415

MSA 01.с.2.3.150.400 16400

33838

16406,4

0,469 11,91

28,3719

15,2385

2145975

37200 31620

MSA 01.с.2.3.150.500 20500

39991

20508

0,562 14,27

36,8935

19,2487

40481840

59000 50150

MSA 01.с.2.3.150.600 24600

451143

24610

0,625 15,88

43,71110

23,2589

59072685

92000 78200

MSA 01.c.2.3.300.150 6150

18457

6,625 168,3

0,375 9,53

17,87454

5,9150

20995

23802024

MSA 01.с.2.3.300.200 8200

20,5521

8,625 219,1

0,438 11,13

20,7526

7,9201

418190

32002720

MSA 01.с.2.3.300.250 10250

22559

10,75273

0,512,7

24,8630

9,92252

924420

15000 12750

MSA 01.с.2.3.300.300 12300

25635

12,75 323,8

0,625 15,88

26,4670

11,93303

1456662

23000 19550

MSA 01.с.2.3.300.350 14350

30762

14355,6

0,688 17,48

27,2690

13,1334

1793815

29900 25415

MSA 01.с.2.3.300.400 16400

33838

16406,4

0,75 19,05

28,3720

15,2385

23101050

37200 31620

MSA 01.с.2.3.300.500 20500

39991

20508

0,875 22,23

36,8935

19,2487

40481840

59000 50150

MSA 01.с.2.3.300.600 24600

451143

24610

0,969 24,61

43,71110

23,2589

59452702

92000 78200

ANSI Class 150

ANSI Class 300

Code NPS/DN L D T H Dmin Weight Cv/Kv


in/mm

in/mm

lb/kg

lb/kg MS

A 0

1.c

13

DIMENSIONS & WEIGHT

Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than................20 bar (Class150), 50 bar (Class300)Working medium temperature.......................from -20°F (-29°C) to +356°F (+180°C)Working medium............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature..............................not less than - 20°F (- 29°C)Quantity of work cycles.................................not less than 5000Full lifetime....................................................not less than 30 yearsPipeline connection.......................................flanged endControl means...............................................handleFace-to-face dimension.................................according to ASME B16.10Flanges connection.........................................according to ASME B16.5Pressure/ temperature rating.........................according to ASME/ANSI B16.34Testing and inspection...................................according to API 6D, API 598



DESIGN



10 Gasket ring Rubber11 Ring PTFE12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer AISI 926016 Washer ASTM A516 Gr70



Ball valvesReduced boreMSA 01.c

MSA 01.с.1.1.300.65/50 2 ½×2 65×50

9,5 241

7,5 190

5,88 149,2

4,12 104,8

12,2 311

14,5 369

6,2 158

1,93 49

7/8 22,2 8 35,2

16190160

MSA 01.с.1.1.300.100/80 4×3 100×80

12 305

10 255

7,88 200

6,19 157,2

15 382

18,1 460

6,5 168

2,92 74

7/8 22,2 8 70,5

32600510

MSA 01.с.1.1.300.150/100 6×4 150×100

15,88 403

12,5 320

10,62 269,9

8,5 215,9

23,7 602

27,6 700

7,3 185

3,95 100

7/8 22,2 12 143

65800680

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 0

1.c

15

DIMENSIONS & WEIGHT

MSA 01.с.1.1.150.65/50 2 ½×2 65×50

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

14,2 360

6,2 158

1,93 49

3/4 19 4 27.5

12.5190160

MSA 01.с.1.1.150.100/80 4×3 100×80

9229

9230

7,5 190,5

6,19 157,2

15 382

17,7 450

6,6 168

2,92 74

3/4 19 8 42

19.2600510

MSA 01.с.1.1.150.150/100 6×4 150×100

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

27 687

7,7 195

3,95 100

7/8 22,2 8 95

43800680

MSA 01.с.1.1.150.200/150 8×6 200×150

18 457

13,5 345

11,75 298,5

10,62 269,9

23,7 602

27,9 708

9230

5,9 150

7/8 22,2 8 143

652150 1830


Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction.

Working pressure, not higher than..................20 bar (Class150), 50 bar (Class300)Working medium temperature.........................from -20°F (-29°C) to +356°F (+180°C)Working medium..............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature............................... not less than - 20°F (- 29°C)Quantity of work cycles...................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection.........................................flanged endControl means.................................................actuator handwheelFace-to-face dimension...................................according to ASME B16.10Flanges connection.........................................according to ASME B16.5Pressure/ temperature rating...........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598

№ Part name MaterialMATERIALS LIST

Class 150 Class 300PRESSURE/TEMPERATURE RATING


DESIGN


1 Body ASTM A516 Grade702 Ball ASTM A240 Type 3213 Stem ASTM A182 F6a4 Press-on bush ASTM A696 Gr705 Ball seat PTFE6 Seat ring ASTM A516 Gr707 Spring ASTM B637 Gr6888 Trunion ASTM A216 WCB9 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handwheel ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer AISI 9260



MSA 01.с.1.3.150.250/200 10×8 250×200

21 533

16 405

14,25 362

12,75 323,8

23,6 600

22559

7,9201

125,4 12 348

1584300 3655

MSA 01.с.1.3.150.300/250 12×10 300×250

24 610

19 485

17 431,8

15 381

24 610

26660

9,92 252

125,4 12 825

3757550 6420

MSA 01.с.1.3.150.350/300 14×12 350×300

27 686

21 535

18,75 476,3

16,25 412,8

27 686

27,1 688

11,93 303

1 1/8 28,6 12 1551

70514000 11900

MSA 01.с.1.3.150.400/350 16×14 400×350

30 762

23,5 595

21,25 539,8

18,5 469,9

30 762

28,3 719

13,1 334

1 1/8 28,6 16 1903

86515000 12750

MSA 01.с.1.3.150.500/400 20×16 500/400

36 914

27,5 700

25 635

23 584,2

36 914

36,8 935

15,2 385

1 1/4 31,75 20 3190

145015300 13000

MSA 01.с.1.3.150.600/500 24×20 600×500

42 1067

32 815

29,5 749,3

27,25 692,2

42 1067

43,7 1110

19,2 487

1 3/8 34,9 20 4510

205028200 23970

MSA 01.с.1.3.300.200/150 8×6200×150

19,75 502

15 380

13 330,2

10,62 269,9

19,7 502

20,7 526

5,9150

125,4 12 350

1592150 1830

MSA 01.с.1.3.300.250/200 10×8 250×200

22,38 568

17,5 445

15,25 387,4

12,75 323,8

22,38 568

24,8 630

7,9201

1 1/8 28,6 16 814

3704300 3655

MSA 01.с.1.3.300.300/250 12×10 300×250

25,5 648

20,5 520

17,75 450,8

15 381

25,5 648

26,4 670

9,92 252

1 1/4 31,75 16 1507

6857550 6420

MSA 01.с.1.3.300.350/300 14×12 350×300

30 762

23 585

20,25 514,4

16,25 412,8

30 762

27,2 690

11,93 303

1 1/4 31,75 20 1943

88314000 11900

MSA 01.с.1.3.300.400/350 16×14 400×350

33 838

25,5 650

22,5 571,5

18,5 469,9

33 838

28,3 720

13,1 334

1 3/8 34,9 20 2024

92015000 12750

MSA 01.с.1.3.300.500/400 20×16 500×400

39 991

30,5 775

27 685,8

23 584,2

39 991

36,8 935

15,2 385

1 3/8 34,9 24 3718

169015300 13000

MSA 01.с.1.3.300.600/500 24×20 600×500

45 1143

36 915

32 812,8

27,75 692,2

45 1143

43,7 1110

19,2 487

1 5/8 41,3 24 4873

221528200 23970

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg MS

A 0

1.c

17

DIMENSIONS & WEIGHT


Split body ball valve. Reduced bore. Weld-ing end design. Ball valve body is made of car-bon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300)Working medium temperature............................from -20°F (-29°C) to +356°F(+180°C)Working medium................................................water, gas, oil products and other nontoxic and non- agressive medium, neutral for ball valve components Environment temperature..................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime........................................................not less than 30 yearsPipeline connection...........................................welding endControl means...................................................handleEnd-to-end dimension.......................................according to ASME B16.10Butt welding ends..............................................according to ASME B16.25Pressure/ temperature rating.............................according to ASME/ANSI B16.34Testing and inspection.......................................according to API 6D, API 598



DESIGN


1 Body ASTM A516 Grade702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM A516 Gr708 Spring washer AISI 92609 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer AISI 926017 Washer ASTM A516 Gr70




MSA 01.с.2.1.150.65/50 2 ½×265×50

9,5 241

2,875 73

6,32 158

0,25 6,35

12,2 311

6,2158

1,9349

24,611,2

190160

MSA 01.с.2.1.150.100/80 4×3100×80

12305

4,5 114,3

7,56 189

0,281 7,14

15382

6,6168

2,9274

3515,9

600510

MSA 01.с.2.1.150.150/100 6×4150×100

18457

6,625 168,3

11,2 280

0,28 7,11

23,7 602

7,7195

3,95100

71,532,5

800680

MSA 01.с.2.1.150.200/150 8×6200×150

20,5 521

8,625 219,1

12,4 310

0,322 8,18

23,7 602

9230

5,9150

14566

21501830

MSA 01.с.2.1.300.65/50 2 ½×265×50

9,5 241

2,875 73

6,32 158

0,276 7,01

12,2 311

6,2158

1,9349

26,412

190160

MSA 01.с.2.1.300.100/80 4×3100×80

12305

4,5 114,3

7,56 189

0,312 7,92

15382

6,6168

2,9274

46,221

600510

MSA 01.с.2.1.300.150/100 6×4150×100

18457

6,625 168,3

11,2 280

0,375 9,53

23,7 602

7,7195

3,95100

104,547,5

800680

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 0

1.c

19

DIMENSIONS & WEIGHT

19

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Split body ball valve. Reduced bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in me-tallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for let-ting the water and condensate out of valve body. Ball valve control is performed manually by rotat-ing actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in hori-zontal position with working medium flow applied from any direction

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium..............................................water, gas, oil products and other bnontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature.................................not less than - 20°F (- 29°C)Quantity of work cycles....................................not less than 5000Full lifetime.......................................................not less than 30 yearsPipeline connection..........................................welding endControl means..................................................actuator handwheelEnd-to-end dimension......................................according to ASME B16.10Butt welding ends.............................................according to ASME B16.25Pressure/ temperature rating............................according to ASME/ANSI B16.34Testing and inspection......................................according to API 6D, API 598



DESIGN


1 Body ASTM A516 Grade702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM A516 Gr708 Spring ASTM B637 Gr6889 Trunion ASTM A216 WCB

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Handwheel ASTM A283 GrC15 Stud ASTM A193 B7M16 Nut ASTM A194 2H17 Washer AISI 9260




MSA 01.с.2.3.150.250/200 10×8 250×200

22559

10,75273

0,365 9,27

22559

7,9201

233106

43003655

MSA 01.с.2.3.150.300/250 12×10300×250

25635

12,75 323,8

0,40610,31

26660

9,92252

539245

75506420

MSA 01.с.2.3.150.350/300 14×12350×300

30762

14355,6

0,43811,13

27,1688

11,93303

1452660

14000 11900

MSA 01.с.2.3.150.400/350 16×14400×350

33838

16406,4

0,46911,91

28,3719

13,1334

1793815

15000 12750

MSA 01.с.2.3.150.500/400 20×16500×400

39991

20508

0,56214,27

36,8935

15,2385

2750815

15300 13000

MSA 01.с.2.3.150.600/500 24×20600×500

451143

24610

0,62515,88

43,71110

19,2487

43341970

28200 23970

MSA 01.с.2.3.300.200/150 8×6200×150

20,5521

8,625 219,1

0,438 11,13

20,7526

5,9150

277126

21501830

MSA 01.с.2.3.300.250/200 10×8250×200

22559

10,75273

0,512,7

24,8630

7,9201

627285

43003655

MSA 01.с.2.3.300.300/250 12×10300×250

25635

12,75 323,8

0,625 15,88

26,4670

9,92252

1144520

75506420

MSA 01.с.2.3.300.350/300 14×12350×300

30762

14355,6

0,688 17,48

27,2690

11,93303

1639745

14000 11900

MSA 01.с.2.3.300.400/350 16×14400×350

33838

16406,4

0,75 19,05

28,3720

13,1334

1903865

15000 12750

MSA 01.с.2.3.300.500/400 20×16500×400

39991

20508

0,875 22,23

36,8935

15,2385

34101550

15300 13000

MSA 01.с.2.3.300.600/500 24×20600×500

451143

24610

0,969 24,61

43,71110

19,2487

42901950

28200 23970

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg MS

A 0

1.c

21

DIMENSIONS & WEIGHT

21


1 Body ASTM A516 Grade702 Ball ASTM A240 Type 3213 Stem ASTM A182 F6a4 Press-on bush ASTM A696 Gr705 Ball seat PTFE+20%bronze6 Seat ring ASTM A516 Gr707 Spring washer AISI 92608 Body gasket PTFE+20%bronze9 Stem seat PTFE+20%bronze

10 Gasket ring Rubber11 Ring PTFE+20%bronze12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer AISI 926016 Washer ASTM A515 Gr70



DESIGN


Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction


Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300)Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C)Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles.......................................not less than 5000Full lifetime..........................................................not less than 30 yearsPipeline connection.............................................flanged endControl means.....................................................handleFace-to-face dimension.......................................according to ASME B16.10Flanges connection.............................................according to ASME B16.5Pressure/ temperature rating..............................according to ASME/ANSI B16.34Testing and inspection.........................................according to API 6D, API 598


MS

A 0

2.c

23

ANSI Class 150

ANSI Class 300



in/mm

in/mm

MSA 02.с.1.1.150.015 ½15

4,25 108

3,5 90

2,38 60,3

1,38 34,9

7,5 190

8,6 218

3,897

0,5113

5/8 15,9 4 5,5

2,519,1 16,3

MSA 02.с.1.1.150.020 ¾20

4,62 117

3,88 100

2,75 69,9

1,69 42,9

7,5 190

8,65 220

3,94 100

0,7519

5/8 15,9 4 7,7

3,534,7 29,5

MSA 02.с.1.1.150.025 125

5127

4,25 110

3,12 79,4

250,8

7,5 190

8,7 221

4,17 106

0,9925

5/8 15,9 4 9,9

4,55043

MSA 02.с.1.1.150.032 1 ¼32

5,5 140

4,62 115

3,5 88,9

2,5 63,5

7,5 190

8,9 226

4,7120

1,2632

5/8 15,9 4 14,7

6,710489

MSA 02.с.1.1.150.040 1 ½40

6,5 165

5125

3,88 98,4

2,88 73

11,1 282

12,7 322

5,6142

1,538

5/8 15,9 4 17

7,7270230

MSA 02.с.1.1.150.050 250

7178

6150

4,75 120,7

3,62 92,1

12,2 311

14,2 360

6,2158

1,9349

3/419 4 22,9

10,4311265

MSA 02.с.1.1.150.065 2 ½65

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

14,4 365

6,5166

2,4462

3/419 4 31,2

14,2635540

MSA 02.с.1.1.150.080 380

8203

7,5 190

6 152,4

5127

15 382

17,7 450

6,6168

2,9274

3/419 4 33,4

15,21027 873

MSA 02.с.1.1.150.100 4100

9229

9230

7,5 190,5

6,19 157,2

23,7 602

27 687

7,3185

3,95 100

3/419 8 52,4

23,81635 1390

MSA 02.с.1.1.150.150 6150

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

27,9 708

9230

5,9150

7/8 22,2 8 141

642380 2024

MSA 02.с.1.1.150.200 8200

18 457

13,5 345

11,75 298,5

10,62 269,9

43,6 1108

48,8 1240

9,5243

7,9201

7/8 22,2 8 165

753200 2720

MSA 02.с.1.1.300.015 ½15

5,5140

3,7595

2,6266,7

1,3834,9

7,5190

8,7220

3,897

0,5113

5/815,9 4 7,7

3,519,116,3

MSA 02.с.1.1.300.020 ¾20

6152

4,62 115

3,25 82,6

1,69 42,9

7,5 190

8,8 223

3,94100

0,7519

3/419 4 9,5

4,334,729,5

MSA 02.с.1.1.300.025 125

6,5 165

4,88 125

3,5 88,9 2 50,8 7,5

1908,9 224

4,17106

0,9925

3/419 4 12,1

5,55043

MSA 02.с.1.1.300.032 1 ¼32

7178

5,25 135

3,88 98,4

2,5 63,5

7,5 190 9 229 4,7

1201,2632

3/419 4 17,6

810489

MSA 02.с.1.1.300.040 1 ½40

7,5 190

6,12 155

4,5 114

2,88 73

11,1 282

12,8 325

5,6142

1,538

7/822,2 4 20,8

9,45270230

MSA 02.с.1.1.300.050 250

8,5 216

6,5 165

5127

3,62 92,1

12,2 311

14,4 366

6,2158

1,9349

3/419 8 29,7

13,5311265

DIMENSIONS & WEIGHT

lb/kg

lb/kg



Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the ap-plication of welding. Free floating ball is sealed with teflon seats. Stem is protected from extru-sion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is in-tended to be installed on the pipeline in any posi-tion with working medium flow applied from any direction.

1 Body ASTM A516 Gr702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE+20%bronze7 Seat ring ASTM A516 Gr708 Spring washer AISI 92609 Body gasket PTFE+20%bronze

10 Stem seat PTFE+20%bronze11 Gasket ring Rubber12 Ring PTFE+20%bronze13 Handle ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer AISI 926017 Washer ASTM A515 Gr70



DESIGN



Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300)Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C)Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime.........................................................not less than 30 yearsPipeline connection............................................welding endControl means....................................................handleEnd-to-end dimension........................................according to ASME B16.10Butt welding end.................................................according to ASME B16.25Pressure/ temperature rating..............................according to ASME/ANSI B16.34Testing and inspection.........................................according to API 6D, API 598


MS

A 0

2.c

25

MSA 02.с.2.1.150.015 ½15

5,5 140

0,84 21,33

3,895

0,147 3,73

7,5 190

3,897

0,5113

5,52,4

19,116,3

MSA 02.с.2.1.150.020 ¾20

6152

1,05 26,75

4,2 105

0,154 3,91

7,5 190

3,94100

0,7519

6,22,8

34,729,5

MSA 02.с.2.1.150.025 125

6,5 165

1.315 33,4

4,6 115

0,179 4,55

7,5 190

4,17106

0,9925

7,73,5

5043

MSA 02.с.2.1.150.032 1 ¼32

7178

1,66 42,2

5,4 135

0,191 4,85

7,5 190

4,7120

1,2632

12,85,8

10489

MSA 02.с.2.1.150.040 1 ½40

7,5 190

1,9 48,3

5,8 145

0,2 5,08

11,1 282

5,6142

1,538

14,36,5

270230

MSA 02.с.2.1.150.050 250

8,5 216

2,375 60,3

6,32 158

0,218 5,54

12,2 311

6,2158

1,9349

19,18,7

311265

MSA 02.с.2.1.150.065 2 ½65

9,5 241

2,875 73

7,2 180

0,25 6,35

12,2 311

6,5166

2,4462

2913,2

635540

MSA 02.с.2.1.150.080 380

11,12 282

3,5 88,9

7,56 189

0,25 6,35

15382

6,6168

2,9274

3013,6

1027873

MSA 02.с.2.1.150.100 4100

12305

4,5 114,3

9,2 230

0,281 7,14

23,7 602

7,3185

3,95100

4219,2

16351390

MSA 02.с.2.1.150.150 6150

18457

6,625 168,3

12,4 310

0,28 7,11

23,7 602

9230

5,9150

11753,2

23802024

MSA 02.с.2.1.150.200 8200

20,5 521

8,625 219,1

15,8 395

0,322 8,18

23,7 602

9,5243

7,9201

21296,5

32002720

MSA 02.с.2.1.300.015 ½15

5,5140

0,8421,3

3,895

0,1473,73

7,5190

3,897

0,5113

5,52,5

19,116,3

MSA 02.с.2.1.300.020 ¾20

6152

1,0526,7

4,2105

0,1543,91

7,5190

3,94100

0,7519

6,42,9

34,729,5

MSA 02.с.2.1.300.025 125

6,5165

1,31533,4

4,6115

0,1794,55

7,5190

4,17106

0,9925

7,93,6

5043

MSA 02.с.2.1.300.032 1 ¼32

7178

1,6642,2

5,4135

0,1914,85

7,5190

4,7120

1,2632

133,9

10489

MSA 02.с.2.1.300.040 1 ½40

7,5190

1,948,3

5,8145

0,25,08

11,1282

5,6142

1,538

14,526,6

270230

MSA 02.с.2.1.300.050 250

8,5216

2,37560,3

6,32158

0,256,35

12,2311

6,2158

1,9349

21,49,7

311265

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

DIMENSIONS & WEIGHT


1 Body ASTM A516 Grade702 Ball ASTM A240 Type 2313 Stem ASTM A182 F6a4 Press-on bush ASTM A696 Gr705 Ball seat PTFE+20%bronze6 Seat ring ASTM A516 Gr707 Spring washer AISI 92608 Body gasket PTFE+20%bronze9 Stem seat PTFE+20%bronze10 Gasket ring Rubber11 Ring PTFE+20%bronze12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer A576 106016 Washer ASTM A515 Gr70


Class 150PRESSURE/TEMPERATURE RATING


DESIGN



Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction

Working pressure, not higher than.....................20 bar (Class150)Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C)Working medium.................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles.......................................not less than 5000Full lifetime..........................................................not less than 30 yearsPipeline connection.............................................flanged endControl means.....................................................handleFace-to-face dimension.......................................according to ASME B16.10Flanges connection.............................................according to ASME B16.5Pressure/ temperature rating..............................according to ASME/ANSI B16.34Testing and inspection.........................................according to API 6D, API 598

MS

A 0

2.c

27

ANSI Class 150

Code NPS/DN L D D1 D2 L1 B H Dmin d n Weight Cv/Kvin/mm lb/kg

DIMENSIONS & WEIGHT

MSA 02.с.1.1.150.65/50 2 ½×2 65×50

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

14,2 360

6,2 158

1,93 49

3/4 19 4 27.5

12.5190160

MSA 02.с.1.1.150.100/80 4×3 100×80

9229

9230

7,5 190,5

6,19 157,2

15 382

17,7 450

6,6 168

2,92 74

3/4 19 8 42

19.2600510

MSA 02.с.1.1.150.150/100 6×4 150×100

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

27 687

7,7 195

3,95 100

7/8 22.2 8 95

43800680

MSA 02.с.1.1.150.200/150 8×6 200×150

18 457

13,5 345

11,75 298,5

10,62 269,9

23,7 602

27,9 708

9230

5,9 150

7/8 22.2 8 143

652150 1830


1 Body ASTM A516 Gr702 End connection ASTM A106 GrA3 Ball ASTM A240 Type 3214 Stem ASTM A182 F6a5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM A516 Gr708 Spring washer AISI 92609 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle ASTM A283 GrC14 Stud ASTM A193 B7M15 Nut ASTM A194 2H16 Washer A576 106017 Washer ASTM A515 Gr70




DESIGN




Split body ball valve. Reduced bore. Weld-ing end design. Ball valve body is made of car-bon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve con-trol is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.....................20 bar (Class150)Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C)Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime.........................................................not less than 30 yearsPipeline connection............................................welding endControl means....................................................handleEnd-to-end dimension........................................according to ASME B16.10Butt welding end.................................................according to ASME B16.25Pressure/ temperature rating..............................according to ASME/ANSI B16.34Testing and inspection.........................................according to API 6D, API 598

MS

A 0

2.c

29

MSA 02.с.2.1.150.65/50 2 ½×265×50

9,5 241

2,875 73

6,32 158

0,25 6,35

12,2 311

6,2158

1,9349

24,611,2

190160

MSA 02.с.2.1.150.100/80 4×3100×80

12305

4,5 114,3

7,56 189

0,281 7,14

15382

6,6168

2,9274

3515,9

600510

MSA 02.с.2.1.150.150/100 6×4150×100

18457

6,625 168,3

11,2 280

0,28 7,11

23,7 602

7,7195

3,95100

71,532,5

800680

MSA 02.с.2.1.150.200/150 8×6200×150

20,5 521

8,625 219,1

12,4 310

0,322 8,18

23,7 602

9230

5,9150

14566

21501830

ANSI Class 150

Code NPS/DN L D A T L1 H Dmin Weight Cv/Kvin/mm lb/kg

DIMENSIONS & WEIGHT

Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters

Split body short pattern ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tight-ened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium...............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature................................. not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000Full lifetime........................................................not less than 30 yearsPipeline connection...........................................flanged endControl means...................................................handleFlanges connection...........................................according to ASME B16.5Pressure/ temperature rating.............................according to ASME/ANSI B16.34Testing and inspection.......................................according to API 6D, API 598


10 Gasket ring Rubber11 Ring PTFE12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer ASTM A515 Gr70




DESIGN




ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 0

5.c

31

DIMENSIONS & WEIGHT

MSA 05.с.1.1.150.015 ½15

2,16 55

3,5 90

2,38 60,3

1,38 34,9

7,5 190

8,6 218

3,897

0,51 13

5/8 15,9 4 3

1,3619,1 16,3

MSA 05.с.1.1.150.020 ¾20

2,28 58

3,88 100

2,75 69,9

1,69 42,9

7,5 190

8,66 219

3,94100

0,75 19

5/8 15.9 4 4,3

1,9734,7 29,5

MSA 05.с.1.1.150.025 125

2,44 62

4,25 110

3,12 79,4

250,8

7,5 190

8,7 221

4,17106

0,99 25

5/8 15,9 4 5,7

2,65043

MSA 05.с.1.1.150.032 1 ¼32

2,72 69

4,62 115

3,5 88,9

2,5 63,5

7,5 190

8,9 225

4,7120

1,26 32

5/8 15,9 4 8,7

3,9510489

MSA 05.с.1.1.150.040 1 ½40

2,91 74

5125

3,88 98,4

2,88 73

11,1 282

12,6 319

5,6142

1,538

5/8 15,9 4 9,8

4,45270230

MSA 05.с.1.1.150.050 250

3,74 95

6150

4,75 120,7

3,62 92,1

12,2 311

14,2 360

6,2158

1,93 49

3/4 19 4 16,7

7,6311265

MSA 05.с.1.1.150.065 2 ½65

4,49 114

7180

5,5 139,7

4,12 104,8

12,2 311

14,5 368

6,5166

2,44 62

3/4 19 4 25,5

11,6635540

MSA 05.с.1.1.150.080 380

5,04 128

7,5 190

6 152,4

5127

15 382

17,6 446

6,6168

2,92 74

3/4 19 4 31,7

14,41027 873

MSA 05.с.1.1.150.100 4100

7,28 185

9230

7,5 190,5

6,19 157,2

23,7 602

27,45 695

7,3185

3,95 100

3/4 19 8 55

251635 1390

MSA 05.с.1.1.150.150 6150

7,48 190

11 280

9,5 241,3

8,5 215,9

23,7 602

27,5 697

9230

5,9 150

7/8 22,2 8 88,7

40,32380 2024

MSA 05.с.1.1.150.200 8200

8,18 208

13,5 345

11,5 298,5

10,62 269,9

43,4 1102

47,7 1206

9,5243

7,9 201

7/8 22,2 8 167,6

76,23200 2720

MSA 05.с.1.1.300.015 ½15

2,4 61

3,75 95

2,62 66,7

1,38 34,9

7,5 190

8,7 220

3,897

0,51 13

5/8 15,9 4 3,96

1,819,1 16,3

MSA 05.с.1.1.300.020 ¾20

2,52 64

4,62 115

3,25 82,6

1,69 42,9

7,5 190

8,74 223

3,94 100

0,75 19

3/4 19 4 5,9

2,734,7 29,5

MSA 05.с.1.1.300.025 125

2,61 66

4,88 125

3,5 88,9

250,8

7,5 190

8,8 229

4,17 106

0,99 25

3/4 19 4 7,6

3,475043

MSA 05.с.1.1.300.032 1 ¼32

3,07 78

5,25 135

3,88 98,4

2,5 63,5

7,5 190

9229

4,7 120

1,26 32

3/4 19 4 11

510489

MSA 05.с.1.1.300.040 1 ½40

3,31 84

6,12 155

4,5 114

2,88 73

11,1 282

12,75 324

5,6 142

1,538

7/8 22,2 4 14,3

6,5270230

MSA 05.с.1.1.300.050 250

4,25 108

6,5 165

5127

3,62 92,1

12,2 311

14,3 365

6,2 158

1,93 49

3/4 19 8 18,7

8,5311265

MSA 05.с.1.1.300.065 2 ½65

4,96 126

7,5 190

5,88 149,2

4,12 104,8

12,2 311

14,7 374

6,5 166

2,44 62

7/8 22,2 8 29,26

13,3635540

MSA 05.с.1.1.300.080 380

5,59 142

8,25 210

6,62 168,3

5127

15 382

17,8 459

6,6 168

2,92 74

7/8 22,2 8 39

17,741027 873

MSA 05.с.1.1.300.100 4100

7,87 200

10 255

7,88 200

6,19 157,2

23,7 602

27,7 702

7,3 185

3,95 100

7/8 22,2 8 70,4

321635 1390

MSA 05.с.1.1.300.150 6150

8,34 212

12,5 320

10,62 269,9

8,5 215,9

23,7 602

27,9 708

9230

5,9 150

7/8 22,2 12 120,6

54,82380 2024

MSA 05.с.1.1.300.200 8200

9,17 233

15 380

13 330,2

10,62 269,9

43,4 1102

48 1220

9,5 243

7,9 201

1 25,4 12 212,8

96,743200 2720




DESIGN



10 Gasket ring Rubber11 Ring PTFE12 Handle ASTM A283 GrC13 Stud ASTM A193 B7M14 Nut ASTM A194 2H15 Washer ASTM A515 Gr70

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium...............................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve componentsEnvironment temperature................................. not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000Full lifetime........................................................not less than 30 yearsPipeline connection...........................................flanged endControl means...................................................handleFlanges connection...........................................according to ASME B16.5Pressure/ temperature rating.............................according to ASME/ANSI B16.34Testing and inspection.......................................according to API 6D, API 598




Split body short pattern ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

MSA 05.с.1.1.150.65/50 2 ½×2 65×50

4,01 102

7180

5,5 139,7

4,12 104,8

12,2 311

14,3 362

6,2 158

1,93 49

3/4 19 4 21,3

9,7190160

MSA 05.с.1.1.150.100/80 4×3 100×80

5,04 128

9230

7,5 190,5

6,19 157,2

15 382

17,6 446

6,6 168

2,92 74

3/4 19 8 42,7

19,4600510

MSA 05.с.1.1.150.150/100 6×4 150×100

6,53 166

11 280

9,5 241,3

8,5 215,9

23,7 602

27 685

7,7 195

3,95 100

7/8 22,2 8 58,3

26,5800680

MSA 05.с.1.1.150.200/150 8×6 200×150

8,26 210

13,5 345

11,75 298,5

10,62 269,9

23,7 602

27,9 707

9230

5,9 150

7/8 22,2 8 124,1

56,42150 1830

MSA 05.с.1.1.300.65/50 2 ½×2 65×50

4,49 114

7,5 190

5,88 149,2

4,12 104,8

12,2 311

14,5 368

6,2 158

1,93 49

7/8 22,2 8 25,3

11,5190160

MSA 05.с.1.1.300.100/80 4×3 100×80

5,82 148

10 255

7,88 200

6,19 157,2

15 382

17,94 456

6,5 168

2,92 74

7/8 22,2 8 58,74

26,7600510

MSA 05.с.1.1.300.150/100 6×4 150×100

7,56 192

12,5 320

10,62 269,9

8,5 215,9

23,7 602

27,5 698

7,3 185

3,95 100

7/8 22,2 12 94

42,7800680

MSA 05.с.1.1.300.200/150 8×6 200×150

8,7 221

15 380

13 330,2

10,62 269,9

23,7 602

28,1 713

10,2 260

5,9 150

1 25,4 12 175

79,62150 1830

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 0

5.c

33

DIMENSIONS & WEIGHT

Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body all-welded ball valve. Full bore. Flanged end design. All body component parts are joined by welding. Ball valve is maintenance-free.

Design types:MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats.

Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than..............20 bar (Class150), 50 bar (Class300)Working medium temperature.....................from -20°F (-29°C) to +356°F (+180°C)Working medium....................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive and neutral medium for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium one for ball valve componentsEnvironment temperature...........................not less than - 20°F (- 29°C)Quantity of work cycles..............................not less than 5000Full lifetime................................................not less than 30 yearsPipeline connection....................................flanged endControl means............................................handleFace-to-face dimension..............................according to ASME B16.10Flanges connection.....................................according to ASME B16.5Pressure/ temperature rating......................according to ASME/ANSI B16.34Testing and inspection................................according to API 6D, API 598



MSA 21.c MSA 21.s

1 Body ASTM A106 GradeB

ASTM A376 TP304

2 Ball ASTM A240 Type 231

3 Stem ASTM A182 F6a ASTM A479 Type321

4 Press-on bush ASTM A696 Gr70 ASTM A479 Type321

5 Ball seat PTFE

6 Seat ring ASTM A516 Gr70 ASTM A240 Type321

7 Spring washer AISI 9260 AISI 3168 Stem seat PTFE9 Gasket ring Rubber10 Ring PTFE11 Handle ASTM A283 GrC12 Nut ASTM A194 2H ASTM A194 8M

13 Washer ASTM A106 GrA ASTM A240 Type321


DESIGN




MSA 21.s

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

1.c

MS

A 2

1.s

Note:MSA 21.c — carbon steel ball valve designMSA 21.s — stainless steel ball valve design

35

MSA 21.с.1.1.150.015 MSA 21.s.1.1.150.015

½15

4,25 108

3,590

2,38 60,3

1,38 34,9

7,5 190

9,6244

3,897

0,51 13

5/8 15,9 4 3,7

1,719,116,3

MSA 21.с.1.1.150.020 MSA 21.s.1.1.150.020

¾20

4,62 117

3,88 100

2,75 69,9

1,69 42,9

7,5 190

9,8249

3,94 100

0,75 19

5/8 15.9 4 6,4

2,934,729,5

MSA 21.с.1.1.150.025 MSA 21.s.1.1.150.025

125

5127

4,25 110

3,12 79,4

250,8

7,5 190

10254

4,17 106

0,99 25

5/8 15,9 4 8,4

3,85043

MSA 21.с.1.1.150.032 MSA 21.s.1.1.150.032

1 ¼32

5,5 140

4,62 115

3,5 88,9

2,5 63,5

7,5 190

10,2 260

4,7 120

1,26 32

5/8 15,9 4 12,1

5,510489

MSA 21.с.1.1.150.040 MSA 21.s.1.1.150.040

1 ½40

6,5 165

5125

3,88 98,4

2,8873

11,1 282

14,4 365

5,6 142

1,538

5/8 15,9 4 14,3

6,5270230

MSA 21.с.1.1.150.050 MSA 21.s.1.1.150.050

250

7178

6150

4,75 120,7

3,62 92,1

12,2 311

15,7 400

6,2 158

1,93 49

3/4 19 4 19,4

8,8311265

MSA 21.с.1.1.150.065 MSA 21.s.1.1.150.065

2 ½65

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

16406

6,5 166

2,44 62

3/4 19 4 23,5

10,7635540

MSA 21.с.1.1.150.080 MSA 21.s.1.1.150.080

380

8203

7,5 190

6 152,4

5127

15382

19484

6,6 168

2,92 74

3/4 19 4 32,3

14,71027873

MSA 21.с.1.1.150.100 MSA 21.s.1.1.150.100

4100

9229

9230

7,5 190,5

6,19 157,2

23,7 602

28,2 717

7,3 185

3,95 100

3/4 19 8 68,2

3116351390

MSA 21.с.1.1.150.150 MSA 21.s.1.1.150.150

6150

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

31,4 799

9230

5,9 150

7/8 22,2 8 124,5

55,623802024

MSA 21.с.1.1.150.200 MSA 21.s.1.1.150.200

8200

18 457

13,5 345

11,75 298,5

10,62 269,9

43,4 1102

52,4 1330

9,5 243

7,9 201

7/8 22,2 8 156,8

71,332002720

MSA 21.с.1.1.300.015 MSA 21.s.1.1.300.015

½15

5,5140

3,7595

2,6266,7

1,3834,9

7,5190

10,2260

3,897

0,5113

5/8 15,9 4 3,96

1,819,116,3

MSA 21.с.1.1.300.020 MSA 21.s.1.1.300.020

¾20

6,0152

4,62115

3,2582,6

1,6942,9

7,5190

10,5266

3,94100

0,7519

3/4 19 4 6,8

3,134,729,5

MSA 21.с.1.1.300.025 MSA 21.s.1.1.300.025

125

6,5165

4,88125

3,588,9

250,8

7,5190

10,7273

4,17106

0,9925

3/4 19 4 9,5

4,35043

MSA 21.с.1.1.300.032 MSA 21.s.1.1.300.032

1 ¼32

7,0178

5,25135

3,8898,4

2,563,5

7,5190

11,0279

4,7120

1,2632

3/4 19 4 13,4

6,110489

MSA 21.с.1.1.300.040 MSA 21.s.1.1.300.040

1 ½40

7,5190

6,12155

4,5114

2,8873

11,1282

14,8377

5,6142

1,538

7/8 22,2 4 16

7,3270230

MSA 21.с.1.1.300.050 MSA 21.s.1.1.300.050

250

8,5216

6,5165

5,0127

3,6292,1

12,2311

16,5419

6,2158

1,9349

3/4 19 8 23,1

10,5311265

MSA 21.с.1.1.300.065 MSA 21.s.1.1.300.065

2 ½65

9,5241

7,5190

5,88149,2

4,12104,8

12,2311

17,0432

6,5166

2,4462

7/8 22,2 8 25

11,4635540

MSA 21.с.1.1.300.080 MSA 21.s.1.1.300.080

380

11,12282

8,25210

6,62168,3

5127

15382

20,6523

6,6168

2,9274

7/8 22,2 8 34,76

15,81027873

MSA 21.с.1.1.300.100 MSA 21.s.1.1.300.100

4100

12305

10255

7,88200

6,19157,2

23,7602

29,7755

7,3185

3,95100

7/8 22,2 8 75,9

34,516351390

MSA 21.с.1.1.300.150 MSA 21.s.1.1.300.150

6150

15,88403

12,5320

10,62269,9

8,5215,9

23,7602

31,7804

9230

5,9150

7/8 22,2 12 100,5

45,723802024

MSA 21.с.1.1.300.200 MSA 21.s.1.1.300.200

8200

19,75502

15380

13330

10,62269,9

43,41102

50,81292

9,5243

7,9201

1 25,4 12 159,5

72,532002720

DIMENSIONS & WEIGHT

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium.........................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium one for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles.......................................not less than 5000Full lifetime.........................................................not less than 30 yearsPipeline connection............................................welding endControl means....................................................handleEnd-to-end dimension.........................................according to ASME B16.10Butt welding ends................................................according to ASME B16.25Pressure/ temperature rating..............................according to ASME/ANSI B16.34Testing and inspection........................................according to API 6D, API 598

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Single body all-welded ball valve. Full bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free.


Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction



MSA 21.c MSA 21.s


ASTM A376 TP304


3 End connec-tion ASTM A106 GrA ASTM A376

TP304



6 Ball seat PTFE





DESIGN




MSA 21.s

MSA 21.с.2.1.150.015 MSA 21.s.2.1.150.015

½15

5,5140

0,84 21,33

1,86 42,2

0,147 3,73

7,5190

3,897

0,5113

2,090,95

19,116,3

MSA 21.с.2.1.150.020 MSA 21.s.2.1.150.020

¾20

6152

1,05 26,75

1,948,3

0,154 3,91

7,5190

3,94100

0,7519

3,31,5

34,729,5

MSA 21.с.2.1.150.025 MSA 21.s.2.1.150.025

125

6,5165

1,315 33,4

2,375 60,3

0,179 4,55

7,5190

4,17106

0,9925

4,622,1

5043

MSA 21.с.2.1.150.032 MSA 21.s.2.1.150.032

1 ¼32

7178

1,66 42,2

2,87573

0,191 4,85

7,5190

4,7120

1,2632

73,2

10489

MSA 21.с.2.1.150.040 MSA 21.s.2.1.150.040

1 ½40

7,5190

1,9 48,3

3,588,9

0,2 5,08

11,1 282

5,6142

1,538

94,1

270230

MSA 21.с.2.1.150.050 MSA 21.s.2.1.150.050

250

8,5216

2,375 60,3

4101,6

0,218 5,54

12,2 311

6,2158

1,9349

12,545,7

311265

MSA 21.с.2.1.150.065 MSA 21.s.2.1.150.065

2 ½65

9,5241

2,875 73

5,56 141,3

0,25 6,35

12,2 311

6,5166

2,4462

188,2

635540

MSA 21.с.2.1.150.080 MSA 21.s.2.1.150.080

380

11,12 282

3,5 88,9

5,56 141,3

0,25 6,35

15382

6,6168

2,9274

209,1

1027873

MSA 21.с.2.1.150.100 MSA 21.s.2.1.150.100

4100

12305

4,5 114,3

7177,8

0,281 7,14

23,7 602

7,3185

3,95100

34,5415,7

16351390

MSA 21.с.2.1.150.150 MSA 21.s.2.1.150.150

6150

18457

6,625 168,3

9,626 244,5

0,28 7,11

23,7 602

9230

5,9150

66,930,4

23802024

MSA 21.с.2.1.150.200 MSA 21.s.2.1.150.200

8200

20,5 521

8,625 219,1

12,75 323,9

0,322 8,18

43,4 1102

9,5243

7,9201

141,564,3

32002720

MSA 21.с.2.1.300.015 MSA 21.s.2.1.300.015

½15

5,5140

0,84 21,33

1,86 42,2

0,147 3,73

7,5190

3,897

0,5113

2,090,95

19,116,3

MSA 21.с.2.1.300.020 MSA 21.s.2.1.300.020

¾20

6152

1,05 26,75

1,948,3

0,154 3,91

7,5190

3,94100

0,7519

3,31,5

34,729,5

MSA 21.с.2.1.300.025 MSA 21.s.2.1.300.025

125

6,5165

1,315 33,4

2,375 60,3

0,179 4,55

7,5190

4,17106

0,9925

4,622,1

5043

MSA 21.с.2.1.300.032 MSA 21.s.2.1.300.032

1 ¼32

7178

1,66 42,2

2,87573

0,191 4,85

7,5190

4,7120

1,2632

73,2

10489

MSA 21.с.2.1.300.040 MSA 21.s.2.1.300.040

1 ½40

7,5190

1,9 48,3

3,588,9

0,2 5,08

11,1 282

5,6142

1,538

94,1

270230

MSA 21.с.2.1.300.050 MSA 21.s.2.1.300.050

250

8,5216

2,375 60,3

4101,6

0,25 6,35

12,2 311

6,2158

1,9349

12,95,9

311265

MSA 21.с.2.1.300.065 MSA 21.s.2.1.300.065

2 ½65

9,5241

2,875 73

5,56 141,3

0,276 7,01

12,2 311

6,5166

2,4462

19,48,8

635540

MSA 21.с.2.1.300.080 MSA 21.s.2.1.300.080

380

11,12 282

3,5 88,9

5,56 141,3

0,28 7,14

15382

6,6168

2,9274

21,349,7

1027873

MSA 21.с.2.1.300.100 MSA 21.s.2.1.300.100

4100

12305

4,5 114,3

7177,8

0,312 7,92

23,7 602

7,3185

3,95100

39,217,8

16351390

MSA 21.с.2.1.300.150 MSA 21.s.2.1.300.150

6150

18457

6,625 168,3

9,626 244,5

0,375 9,53

23,7 602

9230

5,9150

74,433,8

23802024

MSA 21.с.2.1.300.200 MSA 21.s.2.1.300.200

8200

20,5 521

8,625 219,1

12,75 323,9

0,438 11,13

43,4 1102

9,5243

7,9201

144,865,8

32002720

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

1.c

MS

A 2

1.s


37

DIMENSIONS & WEIGHT



DESIGN



MSA 21.c MSA 21.s


ASTM A376 TP304




5 Ball seat PTFE






MSA 21.s


Single body all-welded ball valve. Reduced bore. Flanged end design. All body component parts are joined by welding. Ball valve is main-tenance-free.


Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than..............20 bar (Class150), 50 bar (Class300)Working medium temperature.....................from -20°F (-29°C) to +356°F (+180°C)Working medium....................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive and neutral medium for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium for ball valve componentsEnvironment temperature...........................not less than - 20°F (- 29°C)Quantity of work cycles..............................not less than 5000Full lifetime................................................not less than 30 yearsPipeline connection....................................flanged endControl means............................................handleFace-to-face dimension..............................according to ASME B16.10Flanges connection.....................................according to ASME B16.5Pressure/temperature rating.......................according to ASME/ANSI B16.34Testing and inspection................................according to API 6D, API 598

MSA 21.с.1.1.150.020/015 MSA 21.s.1.1.150.020/015

¾ × ½ 20×15

4,6 117

3,88 100

2,75 69,9

1,69 42,9

7,5 190

9,8249

3,897

0,5113

5/8 15,9 4 4,03

1,831210

MSA 21.с.1.1.150.025/020 MSA 21.s.1.1.150.025/020

1× ¾ 25×20

5127

4,25 110

3,12 79,4

250,8

7,5 190

10254

3,9 100

0,7519

5/8 15.9 4 5,4

2,452421

MSA 21.с.1.1.150.032/025 MSA 21.s.1.1.150.032/025

1 ¼ ×1 32×25

5,5 140

4,62 115

3,5 88,9

2,5 63,5

7,5 190

10,2 260

4,2 106

0,9925

5/8 15,9 4 8,4

3,813832

MSA 21.с.1.1.150.040/032 MSA 21.s.1.1.150.040/032

1 ½×1 ¼ 40×32

6,5 165

5125

3,88 98,4

2,8873

7,5 190

10,7 273

4,7 120

1,2632

5/8 15,9 4 11,07

5,027160

MSA 21.с.1.1.150.050/040 MSA 21.s.1.1.150.050/040

2×1 ½ 50×40

7178

6150

4,75 120,7

3,62 92,1

11,1 282

14,6 371

5,6 142

1,538

3/4 19 4 16,6

7,53176150

MSA 21.с.1.1.150.065/050 MSA 21.s.1.1.150.065/050

2 ½×2 65×50

7,5 190

7180

5,5 139,7

4,12 104,8

12,2 311

16406

6,2 158

1,93 49

3/4 19 4 20,26

9,19190160

MSA 21.с.1.1.150.080/065 MSA 21.s.1.1.150.080/065

3×2 ½ 80×65

8203

7,5 190

6 152,4

5127

12,2 311

16,3 413

6,5 166

2,462

3/4 19 4 25,99

11,79447380

MSA 21.с.1.1.150.100/080 MSA 21.s.1.1.150.100/080

4×3 100×80

9229

9230

7,5 190,5

6,19 157,2

15382

19,6 497

6,6 168

2,92 74

3/4 19 8 38,4

17,42600510

MSA 21.с.1.1.150.150/100 MSA 21.s.1.1.150.150/100

6×4 150×100

15,5 394

11 280

9,5 241,3

8,5 215,9

23,7 602

31,5 799

7,3 185

3,95 100

7/8 22,2 8 67,35

30,55800680

MSA 21.с.1.1.150.200/150 MSA 21.s.1.1.150.200/150

8×6 200×150

18 457

13,5 345

11,75 298,5

10,62 269,9

23,7 602

32,7 831

9,1 230

5,9 150

7/8 22,2 8 88,96

40,352150 1830

MSA 21.с.1.1.150.250/200 MSA 21.s.1.1.150.250/200

10×8 250×200

21 533

16 405

14,25 362

12,75 323,8

43,4 1102

53,9 1369

9,6 243

7,9 201

125,4 12 115,5

52,44300 3655

MSA 21.с.1.1.300.020/015 MSA 21.s.1.1.300.020/015

¾ × ½ 20×15

6152

4,62 115

3,25 82,6

1,69 42,9

7,5 190

10,5 266

3,897

0,5113

5/8 15,9 4 4,92

2,231210

MSA 21.с.1.1.300.025/020 MSA 21.s.1.1.300.025/020

1× ¾ 25×20

6,5 165

4,88 125

3,5 88,9

250,8

7,5 190

10,7 273

3,9 100

0,7519

3/419 4 6,5

2,952421

MSA 21.с.1.1.300.032/025 MSA 21.s.1.1.300.032/025

1 ¼ ×1 32×25

7178

5,25 135

3,88 98,4

2,5 63,5

7,5 190

11279

4,2 106

0,9925

3/419 4 9,5

4,313832

MSA 21.с.1.1.300.040/032 MSA 21.s.1.1.300.040/032

1 ½ ×1 ¼ 40×32

7,5 190

6,12 155

4,5 114

2,8873

7,5 190

11,2 285

4,7 120

1,2632

7/822,2 4 12,61

5,727160

MSA 21.с.1.1.300.050/040 MSA 21.s.1.1.300.050/040

2×1 ½ 50×40

8,5 216

6,5 165

5127

3,62 92,1

11,1 282

15,4 390

5,6 142

1,538

3/4 19 8 16,6

7,53176150

MSA 21.с.1.1.300.065/050 MSA 21.s.1.1.300.065/050

2 ½ ×2 65×50

9,5 241

7,5 190

5,88 149,2

4,12 104,8

12,2 311

17432

6,2 158

1,93 49

7/822,2 8 21,8

9,89190160

MSA 21.с.1.1.300.080/065 MSA 21.s.1.1.300.080/065

3×2 ½ 80×65

11,12 282

8,25 210

6,62 168,3

5127

12,2 311

17,8 452

6,5 166

2,462

7/822,2 8 28,42

12,89447380

MSA 21.с.1.1.300.100/080 MSA 21.s.1.1.300.100/080

4×3 100×80

12 305

10 255

7,88 200

6,19 157,2

15382

21,1 535

6,6 168

2,92 74

7/822,2 8 51,41

23,32600510

MSA 21.с.1.1.300.150/100 MSA 21.s.1.1.300.150/100

6×4 150×100

15,88 403

12,5 320

10,62 269,9

8,5 215,9

23,7 602

31,7 804

7,3 185

3,95 100

7/8 22,2 12 86,53

39,25800680

MSA 21.с.1.1.300.200/150 MSA 21.s.1.1.300.200/150

8×6 200×150

19,75 502

15 380

13 330,2

10,62 269,9

23,7 602

33,6 853

9,1 230

5,9 150

125,4 12 104,74

47,512150 1830

MSA 21.с.1.1.300.250/200 MSA 21.s.1.1.300.250/200

10×8 250×200

22,38 568

17,5 445

15,24 387,4

12,75 323,8

43,4 1102

54,6 1386

9,6 243

7,9 201

1 1/828,6 16 128,3

58,24300 3655

ANSI Class 150


ANSI Class 300


MS

A 2

1.c

MS

A 2

1.s


39

DIMENSIONS & WEIGHT



MSA 21.c MSA 21.s


ASTM A376 TP304



TP304



6 Ball seat PTFE




Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Working medium.........................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium for ball valve componentsEnvironment temperature...................................not less than - 20°F (- 29°C)Quantity of work cycles.......................................not less than 5000Full lifetime.........................................................not less than 30 yearsPipeline connection............................................welding endControl means....................................................handleEnd-to-end dimension.........................................according to ASME B16.10Butt welding end.................................................according to ASME B16.25Pressure/temperature rating...............................according to ASME/ANSI B16.34Testing and inspection........................................according to API 6D, API 598

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Single body all-welded ball valve. Full bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free.


Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction

DESIGN





MSA 21.s

MSA 21.с.2.1.150.020/015 MSA 21.s.2.1.150.20/15

¾ × ½ 20×15

6152

1,1 26,7

1,742,2

0,154 3,91

7,5190

3,897

0,5113

2,271,03

19,116,3

MSA 21.с.2.1.150.025/020 MSA 21.s.2.1.150.025/020

1× ¾ 25×20

6,5165

1,3 33,4

1,948,3

0,179 4,55

7,5190

3,94100

0,7519

2,761,25

34,729,5

MSA 21.с.2.1.150.032/025 MSA 21.s.2.1.150.032/025

1¼ ×1 32×25

7178

1,7 42,2

2,375 60,3

0,191 4,85

7,5190

4,17106

0,9925

4,281,94

5043

MSA 21.с.2.1.150.040/032 MSA 21.s.2.1.150.040/032

1½ ×1¼ 40×32

7,5190

1,9 48,3

2,87573

0,2 5,08

7,5190

4,7120

1,2632

6,222,82

10489

MSA 21.с.2.1.150.050/040 MSA 21.s.2.1.150.050/040

2×1 ½ 50×40

8,5216

2,4 60,3

3,588,9

0,218 5,54

11,1 282

5,6142

1,538

9,944,51

270230

MSA 21.с.2.1.150.065/050 MSA 21.s.2.1.150.065/050

2 ½ ×2 65×50

9,5241

2,973

4101,6

0,25 6,35

12,2 311

6,2158

1,9349

14,776,7

311265

MSA 21.с.2.1.150.080/065 MSA 21.s.2.1.150.080/065

3×2 ½ 80×65

11,12 282

3,5 88,9

5,56 141,3

0,25 6,35

12,2 311

6,5166

2,4462

20,069,1

635540

MSA 21.с.2.1.150.100/080 MSA 21.s.2.1.150.100/080

4×3 100×80

12305

4,5 114,3

5,56 141,3

0,281 7,14

15382

6,6168

2,9274

28,8813,1

1027873

MSA 21.с.2.1.150.150/100 MSA 21.s.2.1.150.150/100

6×4 150×100

18457

6,6 168,3

7177,8

0,28 7,11

23,7 602

7,3185

3,95100

63,7128,9

16351390

MSA 21.с.2.1.150.200/150 MSA 21.s.2.1.150.200/150

8×6 200×150

20,5 521

8,6 219,1

9,626 244,5

0,322 8,18

23,7 602

9230

5,9150

72,332,8

23802024

MSA 21.с.2.1.150.250/200 MSA 21.s.2.1.150.250/200

10×8 250×200

22559

10,7 273

12,75 323,9

0,34 8,74

43,4 1102

9,5243

7,9201

156,871,1

32002720

MSA 21.с.2.1.300.020/015 MSA 21.s.2.1.300.020/015

¾ × ½ 20×15

6152

1,05 26,7

1,742,2

0,154 3,91

7,5190

3,897

0,5113

2,271,03

19,116,3

MSA 21.с.2.1.300.025/020 MSA 21.s.2.1.300.025/020

1× ¾ 25×20

6,5165

1,315 33,4

1,948,3

0,179 4,55

7,5190

3,94100

0,7519

3,131,42

34,729,5

MSA 21.с.2.1.300.032/025 MSA 21.s.2.1.300.032/025

1 ¼ ×1 32×25

7178

1,66 42,2

2,375 60,3

0,191 4,85

7,5190

4,17106

0,9925

4,632,1

5043

MSA 21.с.2.1.300.040/032 MSA 21.s.2.1.300.040/032

1 ½ ×1¼ 40×32

7,5190

1,9 48,3

2,87573

0,2 5,08

7,5190

4,7120

1,2632

6,222,82

10489

MSA 21.с.2.1.300.050/040 MSA 21.s.2.1.300.050/040

2×1 ½ 50×40

8,5216

2,375 60,3

3,588,9

0,256,35

11,1 282

5,6142

1,538

10,474,75

270230

MSA 21.с.2.1.300.065/050 MSA 21.s.2.1.300.065/050

2 ½ ×2 65×50

9,5241

2,875 73

4101,6

0,2767,01

12,2 311

6,2158

1,9349

15,657,1

311265

MSA 21.с.2.1.300.080/065 MSA 21.s.2.1.300.080/065

3×2 ½ 80×65

11,12 282

3,5 88,9

5,56 141,3

0,287,14

12,2 311

6,5166

2,4462

20,949,5

635540

MSA 21.с.2.1.300.100/080 MSA 21.s.2.1.300.100/080

4×3 100×80

12305

4,5 114,32

5,56 141,3

0,3127,92

15382

6,6168

2,9274

30,213,7

1027873

MSA 21.с.2.1.300.150/100 MSA 21.s.2.1.300.150/100

6×4 150×100

18457

6,625 168,3

7177,8

0,3759,53

23,7 602

7,3185

3,95100

70,7732,1

16351390

MSA 21.с.2.1.300.200/150 MSA 21.s.2.1.300.200/150

8×6 200×150

20,5 521

8,625 219,1

9,626 244,5

0,43811,13

23,7 602

9230

5,9150

84,238,2

23802024

MSA 21.с.2.1.300.250/200 MSA 21.s.2.1.300.250/200

10×8 250×200

22559

10,7 273

12,75 323,9

0,512,7

43,4 1102

9,5243

7,9201

164,274,5

32002720

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

1.c

MS

A 2

1.s


41

DIMENSIONS & WEIGHT



Single body all-welded ball valve. Full and re-duced bore. Flanged end design. All body com-ponent parts are joined by welding. Ball valve is maintenance-free.


Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direc-tion.


DESIGN


Ball valvesMSA 21.cMSA 21.s


MSA 21.c MSA 21.s


ASTM A376 TP304


3 Flange ASTM A106 GrA ASTM A376 TP304


5 Gasket ring Rubber6 Ball seat PTFE


8 Spring washer AISI 9260 AISI 3169 Gasket ring Rubber10 Ring PTFE11 Handwheel ASTM A283 GrC

12 Bolt ASTM A193 ASTM A240 Type 321

13 Nut ASTM A194 2H ASTM A194 8M

14 Washer ASTM A515 Gr70 ASTM A240 Type321


Full bore&Reduced bore

Working pressure, not higher than......20 bar (Class150), 50 bar (Class300)Working medium temperature...............from -20°F (-29°C) to +356°F (+180°C)Working medium........................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive medium and neutral one for ball valve componentsEnvironment temperature...............................not less than - 20°F (- 29°C)Quantity of work cycles..................................not less than 5000Full lifetime.....................................................not less than 30 yearsPipeline connection........................................flanged endControl means................................................actuator handwheelFace-to-face dimension..................................according to ASME B16.10Flanges connection........................................according to ASME B16.5Pressure/temperature rating...........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598

MSA 21.с.1.3.150.200MSA 21.s.1.3.150.200

8200

18457

13,5345

11,75298,5

10,62269,9

20508

19,8503

7,9201

7/822,2 8 201,3

91,532002720

MSA 21.с.1.3.150.250/200MSA 21.s.1.3.150.250/200

10×8250×200

21533

16405

14,25362

12,75323,8

21,5546

19,8503

7,9201

125,4 12 215,8

98,143003665

MSA 21.с.1.3.300.150MSA 21.s.1.3.300.150

6150

15,88403

12,5320

10,62269,9

8,5215,9

18,9481

18,23463

5,9150

7/822,2 12 117,46

79,323802024

MSA 21.с.1.3.300.200/150MSA 21.s.1.3.300.200/150

8×6200×150

19,75502

15380

13330

10,62269,9

20,86530

18,23463

5,9150

125,4 12 189,6

86,221501830

MSA 21.с.1.3.300.200MSA 21.s.1.3.300.200

8200

19,75502

15380

13330

10,62269,9

20,86530

19,8503

7,9201

125,4 12 209,44

95,232002720

MSA 21.с.1.3.300.250/200MSA 21.s.1.3.300.250/200

10×8250×20

22,38568

17,5445

15,24387,4

12,75323,8

22,2564

19,8503

7,9201

1 1/828,6 16 226,38

102,943003665

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

1.c

MS

A 2

1.s

43

DIMENSIONS & WEIGHT


Working pressure, not higher than....................20 bar (Class150), 50 bar (Class300)Working medium temperature...........................from -20°F (-29°C) to +356°F (+180°C)Working medium..........................MSA 21.c — water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other media, including aggressive ones, neutral to ball valve parts materialsEnvironment temperature..................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime.........................................................not less than 30 yearsPipeline connection............................................welding endsControl means....................................................actuator handwheelEnd-to-end dimension........................................according to ASME B16.10Butt welding end................................................according to ASME B16.25Pressure/ temperature rating.............................according to ASME/ANSI B16.34Testing and inspection.......................................according to API 6D, API 598


Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational back-ground on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.


DESIGN


Ball valvesMSA 21.cMSA 21.s

Single body all-welded ball valve. Full and reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free.


Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve con-trol is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.


Full bore&Reduced bore


MSA 21.c MSA 21.s


ASTM A376 TP304


3 Endconnection ASTM A106 GrA ASTM A376

TP304

4 Stem ASTM A182 F6a ASTM A479Type 321

5 Gasket ring Rubber6 Ball seat PTFE

7 Seat ring ASTM A516 Gr70 ASTM A240Type 321

8 Spring washer AISI 9260 AISI 3169 Gasket ring Rubber10 Ring PTFE11 Handwheel ASTM A283 GrC

12 Bolt ASTM A193 ASTM A240Type 321

13 Nut ASTM A194 2H ASTM A194 8M

14 Washer ASTM A515 Gr70 ASTM A240Type 321

MSA 21.с.2.3.150.200MSA 21.s.2.3.150.200

8200

20,5521

8,625219,1

12,75323,9

0,3228,18

21,25540

19,8503

7,9201

193,688,0

32002720

MSA 21.с.2.3.150.250/200MSA 21.s.2.3.150.250/200

10×8250×200

22559

10,7273

12,75323,9

0,348,74

22,0559

19,8503

7,9201

208,5694,8

32002720

MSA 21.с.2.3.300.150MSA 21.s.2.3.300.150

6150

18457

6,625168,3

9,626244,5

0,3759,53

20508

18,23463

5,9150

126,557,5

23802024

MSA 21.с.2.3.300.200/150MSA 21.s.2.3.300.200/150

8×6200×150

20,5521

8,625219,1

9,626244,5

0,43811,13

21,25540

18,23463

5,9150

136,261,9

21501830

MSA 21.с.2.3.300.200MSA 21.s.2.3.300.200

8200

20,5521

8,625219,1

12,75323,9

0,43811,13

21,25540

19,8503

7,9201

196,989,5

32002720

MSA 21.с.2.3.300.250/200MSA 21.s.2.3.300.250/200

10×8250×200

22559

10,7273

12,75323,9

0,512,7

22,0559

19,8503

7,9201

216,098,2

43003665

ANSI Class 150

ANSI Class 300

Code NPS/DN L D A T B H Dmin Weight Cv/Kv

Code NPS/DN L D A T B H Dmin Weight Cv/Kv

in/mm

in/mm

lb/kg

lb/kg

45

DIMENSIONS & WEIGHT


MS

A 2

1.c

MS

A 2

1.s

Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300)Working medium temperature...........................from -20°F (-29°C) to +356°F (+180°C)Working medium..........................MSA 22.c — water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve components MSA 22.s — water, gas, oil products and other media, including aggressive ones, neutral to ball valve parts materialsEnvironment temperature.................................not less than - 20°F (- 29°C)Quantity of work cycles....................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection.........................................welding endsControl means.................................................handleButt welding end..............................................according to ASME B16.25Pressure/ temperature rating...........................according to ASME/ANSI B16.34Testing and inspection.....................................according to API 6D, API 598


Welding end lightweight all-welded ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a lock-ing device fully blocking liquid and gaseous me-dia flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters

Lightweight single body all-welded ball valve. Reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free.


Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.



Ball valvesLightweightMSA 22.c

MSA 22.s


Reduced bore


MSA 22.c MSA 22.s


ASTM A376 TP304



TP304



6 Ball seat PTFE




DESIGN

47

kg

kg

DIMENSIONS & WEIGHT

MS

A 2

2.c

MS

A 2

2.s

MSA 22.с.2.1.150.065/050 MSA 22.s.2.1.150.065/050

2 ½ ×2 65×50

14,2360

2,973

4,0101,6

0,25 6,35

12,2311

6,2158

1,949

14,776,7

311265

MSA 22.с.2.1.150.080/065 MSA 22.s.2.1.150.080/065

3×2 ½ 80×65

11,2370

3,588,9

5,0127

0,25 6,35

12,2311

6,5166

2,462

20,069,1

635540

MSA 22.с.2.1.150.100/080 MSA 22.s.2.1.150.100/080

4×3 100×80

15,4390

4,5114,3

6,0152,4

0,28 7,14

15,0382

6,6168

2,974

28,8813,1

1027873

MSA 22.с.2.1.150.150/100 MSA 22.s.2.1.150.150/100

6×4 150×100

15,4390

6,6168,3

7,0177,8

0,328,18

23,7602

7,3185

3,9100

63,7128,9

16351390

MSA 22.с.2.1.150.200/150 MSA 22.s.2.1.150.200/150

8×6 200×150

15,4390

8,6219,1

9,6244,5

0,34 8,74

23,7602

9,1230

5,9150

84,8838,5

23802024

MSA 22.с.2.1.150.250/200 MSA 22.s.2.1.150.250/200

10×8 250×200

24,8630

10,7273

12,8323,9

0,38 9,53

43,41102

9,6243

7,9201

136,6962

32002720

MSA 22.с.2.1.300.015MSA 22.s.2.1.300.015

½15

9,1230

0,821,33

1,538

0,153,73

7,5190

3,897

0,513

1,980,9

19,116,3

MSA 22.с.2.1.300.020/015 MSA 22.s.2.1.300.020/015

¾ × ½ 20×15

9,1230

1,126,75

1,742,2

0,184,55

7,5190

3,897

0,513

2,271,03

19,116,3

MSA 22.с.2.1.300.025/020 MSA 22.s.2.1.300.025/020

1× ¾ 25×20

9,1230

1,333,4

1,948,3

0,225,54

7,5190

3,9100

0,719

3,131,42

34,729,5

MSA 22.с.2.1.300.032/025 MSA 22.s.2.1.300.032/025

1 ¼ ×1 32×25

10,2260

1,742,4

2,460,3

0,256,35

7,5190

4,2106

1,025

4,632,1

5043

MSA 22.с.2.1.300.040/032 MSA 22.s.2.1.300.040/032

1 ½ ×1¼ 40×32

10,2260

1,948,3

2,973

0,256,35

7,5190

4,7120

1,332

6,222,82

10489

MSA 22.с.2.1.300.050/040 MSA 22.s.2.1.300.050/040

2×1 ½ 50×40

11,8300

2,460,3

2,973

0,287,01

11,1282

5,6142

1,538

10,474,75

270230

Note:MSA 22.c — carbon steel ball valve design.MSA 22.s — stainless steel ball valve design.End-to-end dimension may be changed by agreement with the client.*dimension T may be changed by agreement with the client.

ANSI Class 150

ANSI Class 300

Code NPS/DN L D A T* L1 H Dmin Weight Cv/Kv

Code NPS/DN L D A T* L1 H Dmin Weight Cv/Kv

in/mm

in/mm

lb/kg

lb/kg


DESIGN






3 Stem ASTM A182 F6a

4 Stem extension ASTM A182 F6a

5 Press-on bush ASTM A696 Gr70

6 Ball seat PTFE

7 Seat ring ASTM A516 Gr70

8 Spring washer AISI 9260

9 Stem seat PTFE

10 Gasket ring Rubber

11 Ring PTFE

12 Handle ASTM A283 GrC

13 Nut ASTM A194 2H

14 Washer ASTM A106 GrA


Ball valvesMSA 23.c

Welding end gas ball valves with heavier duty insulation are designated for underground installation on the pipelines in gas distribution systems as a locking device blocking media flow.

Single body all-welded ball valve with extended stem. Full and reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free. Heavier duty insulation design. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction

Full&Reduced bore

Working pressure, not higher than.........................20 bar (Class150)Working medium temperature................................from -20°F (-29°C) to +356°F (+180°C)Application..............................................................for underground installation on the pipelines in gas distribution systems transporting natural gas, air, neutral gasesEnvironment temperature.......................................not less than - 20°F (- 29°C)Quantity of work cycles..........................................not less than 5000Full lifetime............................................................not less than 30 yearsPipeline connection...............................................welding endsControl means........................................................handleEnd-to-end dimension............................................according to ASME B16.10Butt welding ends...................................................according to ASME B16.25Pressure/ temperature rating.................................according to ASME/ANSI B16.34Testing and inspection...........................................according to API 6D, API 598

49

DIMENSIONS & WEIGHT

MS

A 2

3.c

MSA 23.с.2.1.150.040 1 ½40

7,5190

1,948,3

3,588,9

0,25,08

11,1282

by a

gree

men

t with

the

clie

nt

1,538

94,1

270230

MSA 23.с.2.1.150.050 250

8,5216

2,37560,3

4101,6

0,2185,54

12,2311

1,9349

12,545,7

311265

MSA 23.с.2.1.150.065 2 ½65

9,5241

2,87573

5,56141,3

0,256,35

12,2311

2,4462

188,2

635540

MSA 23.с.2.1.150.080 380

11,12282

3,588,9

5,56141,3

0,256,35

15382

2,9274

209,1

1027873

MSA 23.с.2.1.150.100 4100

12305

4,5114,3

7177,8

0,2817,14

23,7602

3,95100

34,5415,7

16351390

MSA 23.с.2.1.150.150 6150

18457

6,625168,3

9,626244,5

0,287,11

23,7602

5,9150

66,930,4

23802024

MSA 23.с.2.1.150.200 8200

20,5521

8,625219,1

12,75323,9

0,3228,18

43,41102

7,9201

141,564,3

32002720

MSA 23.с.2.1.300.040/032 1 ½× 1¼ 40/32

7,5190

1,948,3

2,87573

0,25,08

7,5190

by a

gree

men

t with

the

clie

nt

1,2632

6,222,82

10489

MSA 23.с.2.1.300.050/040 2×1½50×40

8,5216

2,460,3

3,588,9

0,2185,54

11,1282

1,538

9,944,51

270230

MSA 23.с.2.1.300.065/050 2½×2 65×50

9,5241

2,973

4101,6

0,256,35

12,2311

1,9349

14,776,7

311265

MSA 23.с.2.1.300.080/065 3×2½80×65

11,12282

3,588,9

5,56141,3

0,256,35

12,2311

2,4462

20,069,1

635540

MSA 23.с.2.1.300.100/080 4×3100×80

12305

4,5114,3

5,56141,3

0,2817,14

15382

2,9274

28,8813,1

1027873

MSA 23.с.2.1.300.150/100 6×4 150×100

18457

6,6168,3

7177,8

0,287,11

23,7602

3,95100

63,7128,9

16351390

MSA 23.с.2.1.300.200/150 8×6 200×150

20,5521

8,6219,1

9,626244,5

0,3228,18

23,7602

5,9150

72,332,8

23802024

MSA 23.с.2.1.300.250/200 10×8 250×200

22559

10,7273

12,75323,9

0,348,74

43,41102

7,9201

81,436,9

32002720

kg

kg

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

Note: Weight is specified without stem extension H — by agreement with the client


DESIGN









6 Ball seat PTFE



9 Stem seat PTFE


11 Ring PTFE


13 Nut ASTM A194 2H


Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materialsEnvironment temperature................................not less than - 20°F (- 29°C)Quantity of work cycles...................................not less than 5000Full lifetime.....................................................not less than 30 yearsPipeline connection........................................flanged endsControl means.................................................handleFace-to-face dimension..................................according to ASME B16.10Flanges connection........................................according to ASME B16.5Pressure/ temperature rating.........................according to ASME/ANSI B16.34Testing and inspection...................................according to API 6D, API 598

Flanged end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media low.

Single body all-welded ball valve with extended stem. Full bore. Flanged end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction



MSA 24.с.1.1.150.065 2 ½65

7,5190

7180

5,5139,7

4,12104,8

12,2311

16406

by a

gree

men

t with

the

clie

nt 2,4462

3/419 4 23,5

10,7635540

MSA 24.с.1.1.150.080 380

8203

7,5190

6152,4

5127

15382

19484

2,9274

3/419 4 32,3

14,71027873

MSA 24.с.1.1.150.100 4100

9229

9230

7,5190,5

6,19157,2

23,7602

28,2717

3,95100

3/419 8 68,2

3116351390

MSA 24.с.1.1.150.150 6150

15,5394

11280

9,5241,3

8,5215,9

23,7602

31,4799

5,9150

7/822,2 8 124,5

55,623802024

MSA 24.с.1.1.150.200 8200

18457

13,5345

11,75298,5

10,62269,9

43,41102

52,41330

7,9201

7/822,2 8 156,8

71,332002720

MSA 24.с.1.1.300.015 ½15

5,5140

3,7595

2,6266,7

1,3834,9

7,5190

10,2260

by a

gree

men

t with

the

clie

nt

0,5113

5/815,9 4 3,96

1,819,116,3

MSA 24.с.1.1.300.020 ¾20

6152

4,62115

3,2582,6

1,6942,9

7,5190

10,5266

0,7519

3/419 4 6,8

3,134,729,5

MSA 24.с.1.1.300.025 125

6,5165

4,88125

3,588,9

250,8

7,5190

10,7273

0,9925

3/419 4 9,5

4,35043

MSA 24.с.1.1.300.032 1 ¼32

7178

5,25135

3,8898,4

2,563,5

7,5190

11279

1,2632

3/419 4 13,4

6,110489

MSA 24.с.1.1.300.040 1 ½40

7,5190

6,12155

4,5114

2,8873

11,1282

14,8377

1,538

7/822,2 4 16

7,3270230

MSA 24.с.1.1.300.050 250

8,5216

6,5165

5127

3,6292,1

12,2311

16,5419

1,9349

3/419 8 23,1

10,5311265

Note:Dimensions without PU foam insolation.Weight is specified without stem extension.H — by agreement with the client.

51

DIMENSIONS & WEIGHTANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

4.c


DESIGN



Ball valvesFull bore








6 Ball seat PTFE



9 Stem seat PTFE


11 Ring PTFE


13 Nut ASTM A194 2H


Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materialsEnvironment temperature.................................not less than - 20°F (- 29°C)Quantity of work cycles....................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection.........................................welding endsControl means.................................................handleEnd-to-end dimension.....................................according to ASME B16.10Butt welding ends............................................according to ASME B16.25Pressure/ temperature rating..........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598

Welding end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media flow

Single body all-welded ball valve with extended stem. Full bore. Welded end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction

MSA 24.c

ANSI Class 150

ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 2

4.c

MSA 24.с.2.1.150.065 2 ½65

9,5241

2,87573

5,56141,3

0,256,35

12,2311

by a

gree

men

t with

the

clie

nt

2,4462

188,2

635540

MSA 24.с.2.1.150.080 380

11,12282

3,588,9

5,56141,3

0,256,35

15382

2,9274

209,1

1027873

MSA 24.с.2.1.150.100 4100

12305

4,5114,3

7177,8

0,2817,14

23,7602

3,95100

34,5415,7

16351390

MSA 24.с.2.1.150.150 6150

18457

6,625168,3

9,626244,5

0,287,11

23,7602

5,9150

66,930,4

23802024

MSA 24.с.2.1.150.200 8200

20,5521

8,625219,1

12,75323,9

0,3228,18

43,41102

7,9201

141,564,3

32002720

MSA 24.с.2.1.300.015 ½15

5,5140

0,8421,33

1,8642,2

0,1473,73

7,5190

by a

gree

men

t with

the

clie

nt

0,5113

2,090,95

19,116,3

MSA 24.с.2.1.300.020 ¾20

6152

1,0526,75

1,948,3

0,1543,91

7,5190

0,7519

3,31,5

34,729,5

MSA 24.с.2.1.300.025 125

6,5165

1,31533,4

2,37560,3

0,1794,55

7,5190

0,9925

4,622,1

5043

MSA 24.с.2.1.300.032 1 ¼32

7178

1,6642,2

2,87573

0,1914,85

7,5190

1,2632

73,2

10489

MSA 24.с.2.1.300.040 1 ½40

7,5190

1,948,3

3,588,9

0,25,08

11,1282

1,538

94,1

270230

MSA 24.с.2.1.300.050 250

8,5216

2,37560,3

4101,6

0,256,35

12,2311

1,9349

5,919,4

311265


53

DIMENSIONS & WEIGHT

TECHNICAL CHARACTERISTICSTECHNICAL CHARACTERISTICSTECHNICAL CHARACTERISTICS

DESIGN


Welding end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media flow

Single body all-welded ball valve with extended stem. Reduced bore. Welded end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction


Ball valvesReduced bore








6 Ball seat PTFE



9 Stem seat PTFE


11 Ring PTFE


13 Nut ASTM A194 2H


MSA 24.c

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C)Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materialsEnvironment temperature.................................not less than - 20°F (- 29°C)Quantity of work cycles....................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection.........................................welding endsControl means.................................................handleEnd-to-end dimension.....................................according to ASME B16.10Butt welding ends............................................according to ASME B16.25Pressure/ temperature rating..........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598

MSA 24.с.2.1.300.020/015 ¾×½20×15

6152

1,0526,7

1,742,2

0,1543,91

7,5190

by a

gree

men

t with

the

clie

nt 0,5113

2,271,03

19,116,3

MSA 24.с.2.1.300.025/020 1×¾25×20

6,5165

1,31533,4

1,948,3

0,1794,55

7,5190

0,7519

3,131,42

34,729,5

MSA 24.с.2.1.300.032/025 1¼× 1 32×25

7178

1,6642,2

2,37560,3

0,1914,85

7,5190

0,9925

4,632,1

5043

MSA 24.с.2.1.300.040/032 1 ½× 1¼ 40×32

7,5190

1,948,3

2,87573

0,25,08

7,5190

1,2632

6,222,82

10489

MSA 24.с.2.1.300.050/040 2×1½50×40

8,5216

2,37560,3

3,588,9

0,256,35

11,1282

1,538

10,474,75

270230

MSA 24.с.2.1.150.065/050 2½ ×2 65×50

9,5241

2,973

4101,6

0,256,35

12,2311

by a

gree

men

t with

the

clie

nt

1,9349

14,776,7

311265

MSA 24.с.2.1.150.080/065 3×2½80×65

11,12282

3,588,9

5,56141,3

0,256,35

12,2311

2,4462

20,069,1

635540

MSA 24.с.2.1.150.100/080 4×3100×80

12305

4,5114,3

5,56141,3

0,2817,14

15382

2,9274

28,8813,1

1027873

MSA 24.с.2.1.150.150/100 6×4 150×100

18457

6,6168,3

7177,8

0,287,11

23,7602

3,95100

63,7128,9

16351390

MSA 24.с.2.1.150.200/150 8×6 200×150

20,5521

8,6219,1

9,626244,5

0,3228,18

23,7602

5,9150

72,332,8

23802024

MSA 24.с.2.1.150.250/200 10×8 250×200

22559

10,7273

12,75323,9

0,348,74

43,41102

7,9201

81,436,9

32002720

MS

A 2

4.c


55


ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters.

Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pres-sure relieving valve. Ball valve control is per-formed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than...............64 bar (Class400), 100 bar (Class600)Working medium temperature......................from - 20°F (-29°C) to +356°F (+180°C)Working medium...........................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve parts materialsEnvironment temperature.............................not less than - 20°F (- 29°C)Quantity of work cycles................................not less than 5000Full lifetime...................................................not less than 30 yearsPipeline connection......................................flanged endsControl means..............................................handleFace-to-face dimension...............................according to ASME B16.10Flanges connection.....................................according to ASME B16.5Pressure/ temperature rating.......................according to ASME/ANSI B16.34Testing and inspection.................................according to API 6D, API 598



DESIGN



1 Body ASTM A216 WCB2 Flange ASTM A216 WCB3 Ball ASTM A351 CF8M4 Stem ASTM A182 F6a5 Gland housing ASTM A216 WCB6 Press-on bush ASTM A696 Gr707 Ball seat PTFE8 Seat ring ASTM A516 Gr709 Spring washer AISI 9260

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handle ASTM A216 WCB16 Stud ASTM A193 B7M17 Nut ASTM A194 2H18 Washer AISI 926019 Washer ASTM A515 Gr70



57

MSA 15.с.1.1.400.015 ½15

6,5165

3,7595

2,6266,7

1,3834,9

9,8250

13,1332

4,3110

0,513

5/8 15,9 4 24,5

11,119,116,3

MSA 15.с.1.1.400.020 ¾20

7,5190

4,62115

3,2582,6

1,6942,9

9,8250

13,6345

4,3110

0,7519

3/4 19,05 4 27,5

12,534,729,5

MSA 15.с.1.1.400.025 125

8,5216

4,88125

3,588,9

250,8

13,8350

18458

4,5115

125

3/4 19,05 4 32,6

14,85043

MSA 15.с.1.1.400.032 1 ¼32

9229

5,25135

3,8898,4

2,563,5

13,8350

18,3464

4,7120

1,2532

3/4 19,05 4 39,4

17,910489

MSA 15.с.1.1.400.040 1 ½40

9,5241

6,12155

4,5114,3

2,8873

13,8350

18,5470

5,1130

1,538

7/8 22,2 4 48

21,8270230

MSA 15.с.1.1.400.050 250

11,5292

6,5165

5127

3,6292,1

18,4467

24613

5,5140

1,9249

3/4 19,05 8 58,2

26,4311265

MSA 15.с.1.1.400.065 2 ½65

13330

7,5190

5,88149,2

4,12104,8

18,4467

25632

6155

2,4462

7/8 22,23 8 74,5

33,8635540

MSA 15.с.1.1.400.080 380

14356

8,25210

6,62168,3

5127

18,4467

25,5645

6,7170

376

7/8 22,23 8 95,9

43,61027873

MSA 15.с.1.1.400.100 4100

16406

10255

7,88200

6,19157

24607

32810

7,75196

3,94100

1 25,4 8 115,5

52,416351390

MSA 15.с.1.1.600.015 ½15

6,5165

3,7595

2,6266,7

1,3834,9

9,8250

13,1332

4,3110

0,513

5/8 15,9 4 24,5

11,119,116,3

MSA 15.с.1.1.600.020 ¾20

7,5190

4,62115

3,2582,6

1,6942,9

9,8250

13,6345

4,3110

0,7519

3/4 19,05 4 27,5

12,534,729,5

MSA 15.с.1.1.600.025 125

8,5216

4,88125

3,588,9

250,8

13,8350

18458

4,5115

125

3/4 19,05 4 32,6

14,85043

MSA 15.с.1.1.600.032 1 ¼32

9229

5,25135

3,8898,4

2,563,5

13,8350

18,3464

4,7120

1,2532

3/4 19,05 4 39,4

17,910489

MSA 15.с.1.1.600.040 1 ½40

9,5241

6,12155

4,5114,3

2,8873

13,8350

18,5470

5,1130

1,538

7/8 22,2 4 48

21,8270230

MSA 15.с.1.1.600.050 250

11,5292

6,5165

5127

3,6292,1

18,4467

24613

5,5140

1,9249

3/4 19,05 8 58,2

26,4311265

MSA 15.с.1.1.600.065 2 ½65

13330

7,5190

5,88149,2

4,12104,8

18,4467

25632

6155

2,4462

7/8 22,23 8 74,5

33,8635540

MSA 15.с.1.1.600.080 380

14356

8,25210

6,62168,3

5127

18,4467

25,5645

6,7170

376

7/8 22,23 8 95,9

43,61027873

MSA 15.с.1.1.600.100 4100

17432

10,75275

8,5215,9

6,19157

24607

32810

7,75196

3,94100

1 25,4 8 117,9

53,616351390


ANSI Class 600



in/mm

in/mm

lb/kg

lb/kg

MS

A 1

5.c

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters.

Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pres-sure relieving valve. Ball valve control is per-formed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than................64 bar (Class 400), 100 bar (Class 600)Working medium temperature.......................from -20°F (-29°C) to +356°F (+180°C)Working medium...........................................water, gas, oil products and other nontoxic and non- aggressive medium, neutral for ball valve parts materialsEnvironment temperature..............................not less than - 20°F (- 29°C)Quantity of work cycles.................................not less than 5000Full lifetime....................................................not less than 30 yearsPipeline connection.......................................welding endsControl means...............................................handleEnd-to-end dimension...................................according to ASME B16.10Butt welding ends..........................................according to ASME B16.25Pressure/ temperature rating.........................according to ASME/ANSI B16.34Testing and inspection...................................according to API 6D, API 598





1 Body ASTM A216 WCB2 End connection ASTM A216 WCB3 Ball ASTM A351 CF8M4 Stem ASTM A182 F6a5 Gland housing ASTM A216 WCB6 Press-on bush ASTM A696 Gr707 Ball seat PTFE8 Seat ring ASTM A516 Gr709 Spring washer AISI 9260

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handle ASTM A216 WCB16 Stud ASTM A193 B7M17 Nut ASTM A194 2H18 Washer AISI 926019 Washer ASTM A515 Gr70

DESIGN



MSA 15.с.2.1.400.015 ½15

6,5165

126

4,1105

0,266,5

9,8250

4,3110

0,513

18,38,3

19,116,3

MSA 15.с.2.1.400.020 ¾20

7,5190

1,333

4,3110

0,287

9,8250

4,3110

0,7519

20,99,5

34,729,5

MSA 15.с.2.1.400.025 125

8,5216

1,6141

4,5115

0,318

13,8350

4,5115

125

24,511,1

5043

MSA 15.с.2.1.400.032 1 ¼32

9229

1,948

4,7120

0,318

13,8350

4,7120

1,2532

28,412,9

10489

MSA 15.с.2.1.400.040 1 ½40

9,5241

2,256

5,1130

0,359

13,8350

5,1130

1,538

33,515,2

270230

MSA 15.с.2.1.400.050 250

11,5292

2,667

5,5140

0,359

18,4467

5,5140

1,9249

40,318,3

311265

MSA 15.с.2.1.400.065 2 ½65

13330

3,282

6,5164

0,3910

18,4467

6155

2,4462

54,124,5

635540

MSA 15.с.2.1.400.080 380

14356

4101

7,4188

512,5

18,4467

6,7170

376

67,530,6

1027873

MSA 15.с.2.1.400.100 4100

16406

5125

9,8250

0,4912,5

24607

7,75196

3,94100

81,136,8

16351390

MSA 15.с.2.1.600.015 ½15

6,5165

1,026

4,1105

0,266,5

9,8250

4,3110

0,513

18,38,3

19,116,3

MSA 15.с.2.1.600.020 ¾20

7,5190

1,333

4,3110

0,287

9,8250

4,3110

0,7519

20,99,5

34,729,5

MSA 15.с.2.1.600.025 125

8,5216

1,6141

4,5115

0,318

13,8350

4,5115

125

24,511,1

5043

MSA 15.с.2.1.600.032 1 ¼32

9229

1,948

4,7120

0,318

3,8350

4,7120

1,2532

28,412,9

10489

MSA 15.с.2.1.600.040 1 ½40

9,5241

2,256

5,1130

0,359

13,8350

5,1130

1,538

33,515,2

270230

MSA 15.с.2.1.600.050 250

11,5292

2,667

5,5140

0,359

18,4467

5,5140

1,9249

40,318,3

311265

MSA 15.с.2.1.600.065 2 ½65

13330

3,282

6,5164

0,3910

18,4467

6155

2,4462

54,124,5

635540

MSA 15.с.2.1.600.080 380

14356

4101

7,4188

512,5

18,4467

6,7170

376

67,530,6

1027873

MSA 15.с.2.1.600.100 4100

17432

5125

9,8250

0,4912,5

24607

7,75196

3,94100

81,136,8

16351390

ANSI Class 400

ANSI Class 600



in/mm

in/mm

lb/kg

lb/kg

59

DIMENSIONS & WEIGHT

MS

A 1

5.c

Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters.

Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indi-cator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.

Working pressure, not higher than................64 bar (Class400), 100 bar (Class600)Working medium temperature........................from -20°F (-29°C) to +356°F (+180°C)Working medium............................................water, gas, oil products and other nontoxic and non- agressive medium, neutral for ball valve parts materialsEnvironment temperature..............................not less than - 20°F (- 29°C)Quantity of work cycles.................................not less than 5000Full lifetime....................................................not less than 30 yearsPipeline connection......................................flanged endsControl means..............................................actuator handwheelFace-to-face dimension................................according to ASME B16.10Flanges connection......................................according to ASME B16.5Pressure/ temperature rating........................according to ASME/ANSI B16.34Testing and inspection.................................according to API 6D, API 598

DESIGN





1 Body ASTM A216 WCB2 Flange ASTM A216 WCB3 Ball ASTM A351 CF8M4 Stem ASTM A182 F6a5 Gland housing ASTM A216 WCB6 Press-on bush ASTM A696 Gr707 Ball seat PTFE8 Seat ring ASTM A516 Gr709 Spring ASTM B637 Gr688

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handwheel ASTM A283 GrC16 Bolt ASTM A193 B7M17 Nut ASTM A194 2H18 Washer AISI 9260



MSA 15.с.1.3.400.1506

15019,5 495

12,5 320

10,62 269,9

8,5 215,9

12,7 322

5,9150

125,4

12592268

23802024

MSA 15.с.1.3.400.2008

20023,5 597

15380

13330

10,62 269,9

14,2 361

7,91 201

1 1/8 28,58

12834378

32002720

MSA 15.с.1.3.600.1506

15022559

14355

11,5 292,1

8,5 215,9

12,7 322

5,9 1501 1/8 28,58

12643,5 292,5

23802024

MSA 15.с.1.3.600.2008

20026660

16,5 420

13,75 349,2

10,62 269,9

14,2 361

7,91 201

1 1/4 31,75

12888,4 403,8

32002720

ANSI Class 400

ANSI Class 600

Code NPS/DN L D D1 D2 H Dmin d n Weight Cv/Kv

Code NPS/DN L D D1 D2 H Dmin d n Weight Cv/Kv

in/mm

in/mm

lb/kg

lb/kg

61

DIMENSIONS & WEIGHT

MS

A 1

5.c

Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a com-prehensive informational background on the consequences of working medium influence on different types of materials and can offer its cus-tomers a type of ball valve that would fully cor-respond to all the specified parameters.

Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Anti-static design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indi-cator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.

Working pressure, not higher than.................64 bar (Class400), 100 bar (Class600)Working medium temperature........................from - 20°F (-29°C) to +356°F (+180°C)Working medium.............................................water, gas, oil products and other nontoxic and non- agressive medium, neutral for ball valve parts materialsEnvironment temperature...............................not less than - 20°F (- 29°C)Quantity of work cycles..................................not less than 5000Full lifetime.....................................................not less than 30 yearsPipeline connection........................................welding endsControl means................................................actuator handwheelEnd-to-end dimension....................................according to ASME B16.10Butt welding end connection...........................according to ASME B16.25Pressure/ temperature rating..........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598



Class 400 Class 600

DESIGN




PRESSURE/TEMPERATURE RATING

1 Body ASTM A216 WCB2 End connection ASTM A216 WCB3 Ball ASTM A351 CF8M4 Stem ASTM A182 F6a5 Gland housing ASTM A216 WCB6 Press-on bush ASTM A696 Gr707 Ball seat PTFE8 Seat ring ASTM A516 Gr709 Spring ASTM B637 Gr688

10 Body gasket PTFE11 Stem seat PTFE12 Gasket ring Rubber13 Ring PTFE14 Bearing sleeve Bronze15 Handwheel ASTM A283 GrC16 Bolt ASTM A193 B7M17 Nut ASTM A194 2H18 Washer ANSI 9260

MSA 15.с.2.3.400.150 6150

19,5495

6,9176

14,2360

0,5113

12,7322

5,9150

497,6225,7

23802024

MSA 15.с.2.3.400.200 8200

23,5597

9,3236

17,3440

0,6917,5

14,2361

7,91201

759,7344,6

32002720

MSA 15.с.2.3.600.150 6150

22559

6,9176

14,2360

0,5113

12,7322

5,9150

497,6225,7

23802024

MSA 15.с.2.3.600.200 8200

26660

9,3236

17,3440

0,6917,5

14,2361

7,91201

759,7344,6

32002720

ANSI Class 400

ANSI Class 600

Code NPS/DN L D A T H Dmin Weight Cv/Kv

Code NPS/DN L D A T H Dmin Weight Cv/Kv

in/mm

in/mm

lb/kg

lb/kg

63

DIMENSIONS & WEIGHT

MS

A 1

5.c

Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking de-vice fully blocking liquid and gaseous as well as aggressive working media flow. The manufac-turer has at his disposal a comprehensive infor-mational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Flanged end design. Cast ball valve body is made of stainless steel. The body is composed of two split parts. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Teflon gas-kets are used to seal the body component parts. Ball valve control is performed manually by turn-ing a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300)Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C)Working medium..............................................water, gas, oil products and other including aggressive medium and neutral one for ball valve parts materialsEnvironment temperature................................not less than - 20°F (- 29°C)Quantity of work cycles....................................not less than 5000Full lifetime......................................................not less than 30 yearsPipeline connection..........................................flanged endsControl means.................................................handleFace-to-face dimension...................................according to ASME B16.10Flanges connection.........................................according to ASME B16.5Pressure/ temperature rating...........................according to ASME/ANSI B16.34Testing and inspection....................................according to API 6D, API 598


Ball valvesFull boreMSA 11.s


DESIGN




1 Body ASTM A351 CF8M2 Ball ASTM A351 CF8M3 Stem ASTM A479 Type3214 Press-on bush ASTM A479 Type3215 Ball seat PTFE6 Seat ring ASTM A240 Type3217 Spring washer AISI 3168 Body gasket PTFE9 Stem seat PTFE

10 Gasket ring Rubber11 Ring PTFE

12 HandleASTM A216 WCB(or ASTM A351 CF8M)

13 Stud ASTM A193 B8M14 Nut ASTM A194 8M15 Washer AISI 926016 Washer ASTM A240 Type321

65


ANSI Class 300



in/mm

in/mm

lb/kg

lb/kg

MS

A 1

1.s

MSA 11.s.1.1.150.015 ½15

4,25 108

3,5 90

2,38 60,3

1,38 34,9

7,5 190

9,21234

3,1981

0,5113

5/8 15,9 4 8,38

3,819,1 16,3

MSA 11.s.1.1.150.020 ¾20

4,62 117

3,88 100

2,75 69,9

1,69 42,9

7,5 190

9,37238

3,3184

0,7519

5/8 15.9 4 10,14

4,634,7 29,5

MSA 11.s.1.1.150.025 125

5127

4,25 110

3,12 79,4

250,8

7,5 190

9,45240

3,5490

0,9925

5/8 15,9 4 12,35

5,65043

MSA 11.s.1.1.150.032 1 ¼32

5,5 140

4,62 115

3,5 88,9

2,5 63,5

7,5 190

13,98355

4,06103

1,2632

5/8 15,9 4 19,62

8,910489

MSA 11.s.1.1.150.040 1 ½40

6,5165

5125

3,8898,4

2,8873

11,1282

14,4365

4,33110

1,538

5/815,9 4 23,58

10,7270230

MSA11.s.1.1.150.050 250

7178

6150

4,75120,7

3,6292,1

12,2311

15,7400

4,53115

1,9349

3/419 4 33,4

15,15311265

MSA 11.s.1.1.150.065 2 ½65

7,5190

7180

5,5139,7

4,12104,8

12,2311

16406

4,92125

2,4462

3/419 4 42,1

19,1635540

MSA 11.s.1.1.150.080 380

8203

7,5190

6152,4

5127

15382

19484

5,11130

2,9274

3/419 4 65,7

29,81027873

MSA 11.s.1.1.150.100 4100

9229

9230

7,5190,5

6,19157,2

23,7602

28,2717

5,7145

3,95100

3/419 8 82,45

37,416351390

MSA 11.s.1.1.150.150 6150

15,5394

11280

9,5241,3

8,5215,9

23,7602

31,4799

7,48190

5,9150

7/822,2 8 105,16

47,723802024

MSA 11.s.1.1.150.200 8200

18457

13,5345

11,5298,5

10,62269,9

43,61108

52,41330

8,07205

7,9201

7/822,2 8 209,4

9532002720

MSA 11.с.1.1.300.015 ½15

5,5 140

3,75 95

2,62 66,7

1,38 34,9

7,5 190

9,21234

3,1981

0,51 13

5/8 15,9 4 9,04

4,119,1 16,3

MSA 11.с.1.1.300.020 ¾20

6152

4,62 115

3,25 82,6

1,69 42,9

7,5 190

9,37238

3,3184

0,75 19 3/4 19 4 10,58

4,834,7 29,5

MSA 11.с.1.1.300.025 125

6,5 165

4,88 125

3,5 88,9 2 50,8 7,5

1909,45240

3,5490

0,99 25 3/4 19 4 13,23

6,05043

MSA 11.с.1.1.300.032 1 ¼32

7178

5,25 135

3,88 98,4

2,5 63,5

7,5 190

13,98355

4,06103

1,26 32 3/4 19 4 21,61

9,810489

MSA 11.s.1.1.300.040 1 ½40

7,5190

6,12155

4,5114

2,8873

11,1282

14,8377

4,33110

1,538

7/822,2 4 27,99

12,7270230

MSA 11.s.1.1.300.050 250

8,5216

6,5165

5127

3,6292,1

12,2311

16,5419

4,53115

1,9349

3/419 8 29,7

17,25311265

MSA 11.s.1.1.300.065 2 ½65

9,5241

7,5190

5,88149,2

4,12104,8

12,2311

17432

4,92125

2,4462

7/822,2 8 49,16

22,3635540

MSA 11.s.1.1.300.080 380

11,12282

8,25210

6,62168,3

5127

15382

20,6523

5,11130

2,9274

7/822,2 8 65,69

29,81027873

MSA 11.s.1.1.300.100 4100

12305

10255

7,88200

6,19157,2

23,7602

29,7755

5,7145

3,95100

7/822,2 8 91,27

41,416351390

MSA 11.s.1.1.300.150 6150

15,88403

12,5320

10,62269,9

8,5215,9

23,7602

31,7804

7,48190

5,9150

7/822,2 12 114,2

51,823802024

MSA 11.s.1.1.300.200 8200

19,75502

15380

13330

10,62269,9

43,61108

50,81292

8,07205

7,9201

125,4 12 227,07

10332002720

Threaded end ball valves are designated for installation on the pipelines in water and gas sup-plying systems, for application in heat-power en-gineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous working media flow. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body ball valve. Full and reduced bore. Threaded end design. All body compo-nents are joined by welding. Ball valve is main-tenance-free.

Design types:MSA 21.c.4.1 – made of carbon steel. MSA21.s.4.1 – made of stainless steelFree floating ball is sealed with teflon seats

that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be in-stalled on the pipeline in any position with work-ing medium flow applied from any direction.

Working pressure, not higher than..........20 bar(Class150), 50 bar(Class300)Working medium temperature.................from -20°F (-29°C) to +356°F(+180°C)Working medium......................................MSA 21.c.4.1 — water, gas, oil products and other nontoxic and non-aggressive media, neutral for ball valve parts materials MSA 21.s.4.1 — water, gas, oil products and other including aggressive medium and neutral one for ball valve parts materialsEnvironment temperature........................not less than - 20°F (- 29°C)Quantity of work cycles...........................not less than 5000Full lifetime..............................................not less than 30 yearsPipeline connection..................................threaded endsControl means..........................................handlePressure/ temperature rating...................according to ASME/ANSI B16.34Testing and inspection..............................according to API 6D, API 598

MSA 21.c.4.1 MSA 21.s.4.1


Ball valvesFull bore&Reduced boreMSA 21.c.4.1

MSA 21.s.4.1


DESIGN



ASTM A376 TP304

2 Ball ASTM A351 CF8M



5 Ball seat PTFE






Note:MSA 21.c.4.1 — carbon steel ball valve designMSA 21.s.4.1 — stainless steel ball valve design

NPSC — straight pipe threadNPTC — taper pipe thread

67

MSA 21.с.4.1.150.015MSA 21.s.4.1.150.015

½15 1/2-18NPSC 3

750,5915

1,8642,2

6,4162

7,87200

3,487

0,5113

20,9

19,116,3

MSA 21.с.4.1.150.020/015 MSA 21.s.4.1.150.020/015

¾ ×½ 20×15 3/4-14NPSC 3,15

800,6416,3

1,8642,2

6,4162

7,95202

3,487

0,5113

20,92

1210

MSA 21.с.4.1.150.025/020 MSA 21.s.4.1.150.025/020

1×¾ 25×20 1-11,5NPSC 3,5

900,7519,1

1,948,3

6,4162

8,15207

3,794

0,7519

2,31,03

2421

MSA 21.с.4.1.150.032/025 MSA 21.s.4.1.150.032/025

1¼ ×1 32×25 1 1/4-11,5NPSC 4,3

1100,8421,4

2,37560,3

6,4162

8,54217

3,9100

0,9925

3,31,5

3832

MSA 21.с.4.1.150.040/032 MSA 21.s.4.1.150.040/032

1½×1¼ 40×32 1 1/2-11,5NPSC 4,7

1200,8421,4

2,87573

6,85174

9,2234

4,6118

1,2632

6,22,8

7160

MSA 21.с.4.1.150.050/040 MSA 21.s.4.1.150.050/040

2×1½ 50×40 2-11,5NPSC 5,5

1401

25,73,5

88,911,1282

13,8352

5,5140

1,538

8,43,8

176150

MSA 21.с.4.1.300.015MSA 21.s.4.1.300.015

½15 1/2-18NPSC 3

750,5915

1,8642,2

6,4162

7,87200

3,487

0,5113

20,9

19,116,3

MSA 21.с.4.1.300.020/015 MSA 21.s.4.1.300.020/015

¾ ×½ 20×15 3/4-14NPSC 3,15

800,6416,3

1,8642,2

6,4162

7,95202

3,487

0,5113

20,92

1210

MSA 21.с.4.1.300.025/020 MSA 21.s.4.1.300.025/020

1×¾ 25×20 1-11,5NPSC 3,5

900,7519,1

1,948,3

6,4162

8,15207

3,794

0,7519

2,31,03

2421

MSA 21.с.4.1.300.032/025 MSA 21.s.4.1.300.032/025

1¼ ×1 32×25 1 1/4-11,5NPSC 4,3

1100,8421,4

2,37560,3

6,4162

8,54217

3,9100

0,9925

3,31,5

3832

MSA 21.с.4.1.300.040/032 MSA 21.s.4.1.300.040/032

1½×1¼ 40×32 1 1/2-11,5NPSC 4,7

1200,8421,4

2,87573

6,85174

9,2234

4,6118

1,2632

6,22,8

7160

MSA 21.с.4.1.300.050/040 MSA 21.s.4.1.300.050/040

2×1½ 50×40 2-11,5NPSC 5,5

1401

25,73,5

88,911,1282

13,8352

5,5140

1,538

8,43,8

176150

DIMENSIONS & WEIGHT

MSA

21.

c.4.

1 M

SA 2

1.s.

4.1

ANSI Class 150

ANSI Class 300

Code NPS/DN RG (NPSC or NPTC) L I A L1 B H Dmin Weight Cv/Kv

Code NPS/DN RG (NPSC or NPTC) L I A L1 B H Dmin Weight Cv/Kv

in/mm

in/mm

lb/kg

lb/kg


Threaded end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-pow-er engineering and also in chemical, oil-refin-ing, gas and food industries as a locking device fully blocking liquid and gaseous working me-dia flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Split body ball valve. Full bore. Threaded ends design. Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. In the “open” state handle is parallel to pipeline axis. Ball valve control is per-formed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Working pressure, not higher than.....................63 bar(class 400), 100 bar(class 600), 160bar(class 900)Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C)Working medium..............................................water, gas, oil products and other nontoxic and non- aggressive media, neutral for ball valve parts materialsTesting and inspection.....................................according to API 6D, API 598Environment temperature................................not less than –20°F (– 29°C)Quantity of work cycles....................................not less than 5000Full lifetime.......................................................not less than 30 yearsPipeline connection..........................................threaded endsControl means..................................................handleThreaded ends.................................................with thread acc. to BSP. ISO 228

1 Body ASTM A216 WCB2 Flange ASTM A216 WCD3 Ball ASTM A351 CF8M4 Stem ASTM A182 F6u5 Press-on bush ASTM A696 Gr706 Ball seat PTFE7 Seat ring ASTM ASi Gr708 Spring washer AISI 92609 Body gasket PTFE

10 Stem seat PTFE11 Gasket ring Rubber12 Ring PTFE13 Handle ASTM A216 WCB14 Stud ASTM A193 B7M15 Nut ASTM 194 2H16 Washer AISI 926017 Washer ASTM A515 Gr70

Class 400, Class 600 Class 900PRESSURE/TEMPERATURE RATING


DESIGN



Ball valvesFull boreMSA 15.c.4.1

69

Note: It is possible to order ball valves with the taper pipe threadaccording to ISO7.1 (BSPT) or ANSI B1.20.1 (NPT).

MS

A 1

5.c.

4.1

DIMENSIONS & WEIGHT

MSA15.c.4.1.400.015 ½15

375

1,2532

252 1/2 7

1802

558,6

217,50,4712

0,513

2,41,1

19,1 16,3

MSA15.c.4.1.400.020 ¾20

3,385

1,2532

2,3660 3/4 7

1802,462

8,8222,5

0,5514

0,7519

3,11,4

34,7 29,5

MSA15.c.4.1.400.025 125

4,3110

1,640

2,872 1 7

1802,768

9,2235

0,6216

125

5,52,5

5043

MSA15.c.4.1.400.032 1 ¼32

4,7120

252

376 1¼ 12,3

3143,282

14,7374

0,820,5

1,2532

8,13,7

10489

MSA15.c.4.1.400.040 1 ½40

5,9150

2,3660

3,9100 1½ 12,3

3144,5115

15,3389

0,8622

1,538

19,68,9

270230

MSA15.c.4.1.400.050 250

7,9200

2,872

4,8122 2 15,7

4005,7144

19,7500

0,9424

1,9249

29,713,5

311265

MSA15.c.4.1.600.015 ½15

375

1,2532

252 1/2 7

1802

558,6

217,50,4712

0,513

2,41,1

19,1 16,3

MSA15.c.4.1.600.020 ¾20

3,385

1,2532

2,3660 3/4 7

1802,462

8,8222,5

0,5514

0,7519

3,11,4

34,7 29,5

MSA15.c.4.1.600.025 125

4,3110

1,640

2,872 1 7

1802,768

9,2235

0,6216

125

5,52,5

5043

MSA15.c.4.1.600.032 1 ¼32

4,7120

252

376 1¼ 12,3

3143,282

14,7374

0,820,5

1,2532

8,13,7

10489

MSA15.c.4.1.600.040 1 ½40

5,9150

2,3660

3,9100 1½ 12,3

3144,5115

15,3389

0,8622

1,538

19,68,9

270230

MSA15.c.4.1.600.050 250

7,9200

2,872

4,8122 2 15,7

4005,7144

19,7500

0,9424

1,9249

29,713,5

311265

MSA15.c.4.1.900.015 ½15

375

1,2532

252 1/2 7

1802

558,6

217,50,4712

0,513

2,41,1

19,1 16,3

MSA15.c.4.1.900.020 ¾20

3,385

1,2532

2,3660 3/4 7

1802,462

8,8222,5

0,5514

0,7519

3,11,4

34,7 29,5

MSA15.c.4.1.900.025 125

4,3110

1,640

2,872 1 7

1802,768

9,2235

0,6216

125

5,52,5

5043

MSA15.c.4.1.900.032 1 ¼32

4,7120

252

376 1¼ 12,3

3143,282

14,7374

0,820,5

1,2532

8,13,7

10489

ANSI Class 400

ANSI Class 600

ANSI Class 900

Code NPS/DN L S A G L1 H B F Dmin Weight Cv/Kv



in/mm

in/mm

in/mm

lb/kg

lb/kg

lb/kg


MSA 55.pMSA 56.pMSA 57.p

Welding end polymer ball valves are designated for installation on the polymer pipelines as a locking device blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.

Single body cast polymer ball valve. Full bore. Welding end design. Ends are welded by means of heated instrument.

Design types:MSA 55.p.2.1 — made of polypropylene. MSA 56.p.2.1 — made of polyethyleneMSA 57.p.2.1 — made of polyvinylchlorideBall valve is maintenance-free. Free floating

ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.

Ball valvesFull bore

Working pressure, not higher than....................20 bar (Class150)Working medium temperature...........................from -20°F (-29°C) to +230°F (+110°C)Working medium................................................water, gas, oil products and other nontoxic and non- agressive media, neutral for ball valve parts materials Environment temperature..................................not less than - 20°F (- 29°C)Quantity of work cycles......................................not less than 5000Full lifetime........................................................not less than 30 yearsPipeline connection...........................................welding end according to ISO 9623Control means...................................................handle


1 Body polypropylene polyethylene polyvinylchloride

2 Ring polypropylene polyethylene polyvinylchloride

3 Shell polypropylene polyethylene polyvinylchloride

4 Stem ASTM A182 F6a ASTM A182 F6a ASTM A182 F6a

5 Ball ASTM A240 Type321 ASTM A240 Type321 ASTM A240 Type321

6 Ball seat PTFE PTFE PTFE

7 Stem seat Rubber Rubber Rubber

8 Handle polypropylene polyethylene polyvinylchloride


MSA 55.p MSA 56.p MSA 57.p

DESIGN



71

MSA 55.p.2.1.150.015MSA 56.p.2.1.150.015MSA 57.p.2.1.150.015

½15

2,4863

0,7719,5

2,9575

4,19106,5

2,0552

0,4912,5

0,5714,5

0,7920

0,260,12

19,116,3

MSA 55.p.2.1.150.020MSA 56.p.2.1.150.020MSA 57.p.2.1.150.020

¾20

2,871

0,9624,5

2,9575

4,35110,5

2,1755

0,6717

0,6316

0,9825

0,330,15

34,729,5

MSA 55.p.2.1.150.025MSA 56.p.2.1.150.025MSA 57.p.2.1.150.025

125

3,1580

1,2431,5

2,9575

4,53115

2,461

0,9424

0,7118

1,2632

0,60,27

5043

MSA 55.p.2.1.150.032MSA 56.p.2.1.150.032MSA 57.p.2.1.150.032

1 ¼32

3,94100

1,5639,5

5,71145

7,68195

2,6868

1,1830

0,8120,5

1,5740

0,930,42

10489

MSA 55.p.2.1.150.040MSA 56.p.2.1.150.040MSA 57.p.2.1.150.040

1 ½40

4,53115

1,9549,5

5,71145

7,97202,5

2,8572,5

1,4637

0,9323,5

1,9750

1,410,64

270230

MSA 55.p.2.1.150.050MSA 56.p.2.1.150.050MSA 57.p.2.1.150.050

250

5,28134

2,4662,5

7,87200

10,51267

3,6292

1,8948

1,0827,5

2,4863

2,361,07

311265


Code DN L D L1 B H Dmin l Dpipe Weight Cv/Kvin/mm lb/kg

MSA

55.

p M

SA 5

6.p

MSA

57.

p


MSA 70.c.3MSA 70.i.3

Butterfly valve



DESIGN



1 Body ASTM A48 CLASS - 30 A ASTM A216 WCB2 Disc-shaped plate ASTM A351 CF8M ASTM A351 CF8M3 Stem ASTM A182 F6a ASTM A182 F6a4 Seat Rubber Rubber5 Handle ASTM A216 WCB ASTM A216 WCB6 Retainer ASTM A216 WCB ASTM A216 WCB7 Sector ASTM A48 CLASS - 30A ASTM A216 WCB8 Spring ASTM B637 Gr688 ASTM B637 Gr6889 Gasket ring Rubber Rubber

10 Ring ASTM A516 Grade70 ASTM A516 Grade7011 Screw ASTM A193 B7M ASTM A193 B7M12 Nut ASTM A194 2H ASTM A194 2H

Working pressure, not higher than.......................20 bar (Class150)Working medium temperature…..........................from 5°F (-15°C) to +210°F (+100°C) for MSA 70.i.3 from -20°F (-29°C) to +210°F (+100°C) for MSA 70.с.3Working medium...................................................water, gas, oil products and other nontoxic and non- aggressive media, neutral to butterfly valve partsEnvironment temperature.....................................not less than 5°F(-15°С) for MSA 70.i.3, not less than -20°F (-29°С) for MSA 70.с.3Quantity of work cycles.........................................not less than 5000Full lifetime............................................................not less than 30 yearsPipeline connection...............................................interflangedControl means .....................................................handle, it is also possible to install the actuator gearButterfly valves are manufactured........................according to API Standart 609Face-to-face length...............................................API Standart 609Pressure/ temperature rating................................according to API Standart 609Testing and inspection..........................................according to API 598Upper flange dimensionsfor actuator gear installation.................................according to ISO 5211

Butterfly valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking and regulating device fully blocking and regulating liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of butterfly valve that would fully correspond to all the specified parameters.

Cast butterfly valve. Full bore. Interflanged design.

Design types:MSA 70. i.3 — made of cast iron. MSA 70.c.3 — made of carbon steel. Round disc-shaped plate with seat sealing

fully blocking medium flow. Interchangeable seat sealing. Flange seals are not used for mounting on the pipelines. Butterfly valve control is performed manually by turning a handle at a necessary angle. Handle with a gear sector enables the regulation of a working medium up to its full block. In the “open” state handle axis is parallel to a pipeline axis. Butterfly valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. Due to smooth eye ends butterfly valve can be used on the pipeline end during mounting and maintenance.

MSA 70.i.3 MSA 70.c.3

73

DIMENSIONS & WEIGHT

MSA 70.c.3.1.150.040MSA 70. i.3.1.150.040

1 ½40

1,333

2,5665

4,13105

7,48190

9,69246

4,41112

5,59142

6,89175

2,666

1,7544,5

0,4311

9,044,1

MSA 70.c.3.1.150.050MSA 70. i.3.1.150.050

250

1,6943

2,5665

4,92125

7,48190

9,96253

4,86123,5

5,51140

6,81173

3,1379,5

2,1554,5

0,4311

9,264,2

MSA 70.c.3.1.150.065MSA 70. i.3.1.150.065

2 ½65

1,8146

2,5665

5,53140,5

7,48190

10,24260

5,51140

6,06154

7,09180

3,7495

2,7469,5

0,4311

9,264,2

MSA 70.c.3.1.150.080MSA 70. i.3.1.150.080

380

1,8146

2,5665

6/152,46,30/160

7,48190

10,30261,5

5,63143

6,14156

7,40188

4,02102

3,3384,5

0,4311

9,484,3

MSA 70.c.3.1.150.100MSA 70. i.3.1.150.100

4100

2,0552

3,5490

7,09/1807,50/190,5

8,27210

11,28286,5

6,02153

6,89175

8,15207

4,53115

4,11104,5

0,5514

11,905,4

MSA 70.c.3.1.150.150MSA 70. i.3.1.150.150

6150

2,2056

4,92125

9,45240

12,44316

16,59421,5

8,31211

8,50216

10,14257,5

5,73145,5

6,08154,5

0,7519

24,9111,3

MSA 70.c.3.1.150.200MSA 70. i.3.1.150.200

8200

2,3660

4,92125

11,69297

12,44316

16,59421,5

10,35263

9,21234

10,83275,5

6,95176,5

8,05204,5

0,7519

35,2716

1 ½40 0 1,2

13,53

7,16

12,911

21,218

35,330

62,453

69,459

250 0 2,4

25,95

14,112

24,721

41,235

69,459

123,5105

137,6117

2 ½65 0 4,7

412,911

29,425

54,146

89,476

148,2126

265,9226

295,3251

380

1,21

8,27

24,721

54,146

96,582

161,2137

268,2228

482,4410

535,3455

4100

1,21

11,810

36,531

82,470

145,9124

243,5207

405,9345

730,6621

811,8690

6150

3,53

41,235

127,1108

284,7242

511,8435

852,9725

1422,4 1209

25602176

2844,7 2418

8200

5,95

85,973

258,8220

689,4586

1055,3897

17401479

29002465

5218,8 4436

5798,8 4929

ANSI Class 150

Cv/Kv

Code NPS/DN L D D1 L1 B B1 H Н1 Н2 Dэф F Weight

NPS/DN 10° 20° 30° 40° 50° 60° 70° 80° 90°

in/mm lb/kg

MSA

70.

c.3

MSA

70.

i.3

Flanged end gauze filters are designated for protection of series installations, filtration and collecting of dirt particles. Filters are installed on the pipelines transporting liquid and gaseous working media in water and gas supplying sys-tems, and are used in heat-power engineering, chemical, oil-refining, gas, and other industries. The manufacturer has at his disposal a compre-hensive informational background on the conse-quences of working medium influence on differ-ent types of materials and can offer its customers a type of gauze filter that would fully correspond to all the specified parameters.

Gauze filter. Flanged end design. Cast body and cover are made of carbon steel MSA 60.c, or from cast iron MSA 60.i. Body and cover are sealed with teflon gaskets. Gauze filter is intend-ed to be installed on the pipeline in horizontal position with the cover directed downwards. In case of application in gas pipeline systems the cover should be directed sideway. Gauze filter installation in vertical position is possible only with working medium flow top-down. Working medium flow direction in accordance with an ar-row direction shown on the body.

Working pressure, not higher than....................20 bar(Class150), 50 bar(Class300)Working medium temperature...........................from 5°F (-15°C) to +356°F (+180°C) for MSA 60.i from -20°F (-29°C) to +356°F (+180°C) for MSA 60.сWorking medium...............................................water, gas, oil products and other nontoxic and non-aggressive media, neutral for filter parts materialsEnvironment temperature.................................not less than 5°F(-15°С) for MSA 60.i not less than-20°F (-29°С) for MSA 60.сFull lifetime.......................................................not less than 30 yearsPipeline connection..........................................flanged endsFlanges connection..........................................according to ASME B16.5Pressure/ temperature rating...........................according to ASME/ANSI B16.34


Gauze filter



DESIGN



MSA 60.cMSA 60.i

MSA 60.i MSA 60.c

1 Body ASTM A48CLASS - 30 A

ASTM A216 WCB

2 Cover ASTM A48CLASS - 30 A

ASTM A216 WCB

3 Gauzeelement AISI 316L AISI 316L

4 Body gasket PTFE PTFE

5 Drain plug ASTM A516 Gr70 ASTM A516 Gr70

6 Bolt ASTM A193 B7M ASTM A193 B7M

7 Nut ASTM A194 2H ASTM A194 2H

8 Washer AISI 9260 AISI 9260

9 Washer ASTM A515 Gr70 ASTM A515 Gr70

75

MSA 60.с.1.150.015MSA 60.i.1.150.015

½15

5,12130

3,590

2,3860,3

1,3834,9

2,6467

3,3986

0,5113

5/815,9 4 5,5

2,54,935,8

MSA 60.с.1.150.020MSA 60.i.1.150.020

¾20

5,91150

3,88100

2,7569,9

1,6942,9

3,3184

4,02102

0,7519

5/815,9 4 7,04

3,28,8410,4

MSA 60.с.1.150.025MSA 60.i.1.150.025

125

6,3160

4,25110

3,1279,4

250,8

3,6793

4,65118

0,9925

5/815,9 4 9,9

4,513,9416,4

MSA 60.с.1.150.032MSA 60.i.1.150.032

1 ¼32

7,08180

4,62115

3,588,9

2,563,5

4,09104

5,12130

1,2632

5/815,9 4 12,76

5,823,227,3

MSA 60.с.1.150.040MSA 60.i.1.150.040

1 ½40

7,87200

5125

3,8898,4

2,8873

5,52140

7,48190

1,538

5/815,9 4 15,62

7,135,742

MSA 60.с.1.150.050MSA 60.i.1.150.050

250

9,05230

6150

4,75120,7

3,6292,1

6,22158

8,78223

1,9349

3/419 4 22

1054,9964,7

MSA 60.с.1.150.065MSA 60.i.1.150.065

2 ½65

11,41290

7180

5,5139,7

4,12104,8

7,40188

10,24260

2,4462

3/419 4 40,08

18,2273,986,9

MSA 60.с.1.150.080MSA 60.i.1.150.080

380

12,2310

7,5190

6152,4

5127

9,41239

12,72323

2,9274

3/419 4 51,9

23,691,72107,9

MSA 60.с.1.150.100MSA 60.i.1.150.100

4100

13,78350

9230

7,5190,5

6,19157,2

11,26286

16,1409

3,95100

3/419 8 79,2

36184,5217

MSA 60.с.1.150.150MSA 60.i.1.150.150

6150

18,89480

11280

9,5241,3

8,5215,9

14,88378

21,65550

5,9150

7/822,2 8 167,2

76371,2436,7

MSA 60.с.1.150.200MSA 60.i.1.150.200

8200

23,62600

13,5345

11,75298,5

10,62269,9

17,32440

25,59650

7,9201

7/822,2 8 242

110670,8789,2

MSA 60.с.1.300.015MSA 60.i.1.300.015

½15

5,12130

3,7595

2,6266,7

1,3834,9

2,6467

3,3986

0,5113

5/815,9 4 5,5

2,54,935,8

MSA 60.с.1.300.020MSA 60.i.1.300.020

¾20

5,91150

4,62 115

3,2582,6

1,6942,9

3,3184

4,02102

0,7519

3,419 4 7,04

3,28,8410,4

MSA 60.с.1.300.025MSA 60.i.1.300.025

125

6,3160

4,88125

3,588,9

250,8

3,6793

4,65118

0,9925

3,419 4 9,9

4,513,9416,4

MSA 60.с.1.300.032MSA 60.i.1.300.032

1 ¼32

7,08180

5,25135

3,8898,4

2,563,5

4,09104

5,12130

1,2632

3,419 4 12,76

5,823,227,3

MSA 60.с.1.300.040MSA 60.i.1.300.040

1 ½40

7,87200

6,12155

4,5114

2,8873

5,52140

7,48190

1,538

7/822,2 4 15,62

7,135,742

MSA 60.с.1.300.050MSA 60.i.1.300.050

250

9,05230

6,5165

5127

3,6292,1

6,22158

8,78223

1,9349

3/419 8 22

1054,9964,7

MSA 60.с.1.300.065MSA 60.i.1.300.065

2 ½65

11,41290

7,5190

5,88149,2

4,12104,8

7,40188

10,24260

2,4462

7/822,2 8 40,08

18,2273,986,9

MSA 60.с.1.300.080MSA 60.i.1.300.080

380

12,2310

8,25210

6,62168,3

5127

9,41239

12,72323

2,9274

7/822,2 8 51,9

23,691,72107,9

MSA 60.с.1.300.100MSA 60.i.1.300.100

4100

13,78350

10255

7,88200

6,19157,2

11,26286

16,1409

3,95100

7/822,2 8 79,2

36184,5217

MSA 60.с.1.300.150MSA 60.i.1.300.150

6150

18,89480

12,5320

10,62269,9

8,5215,9

14,88378

21,65550

5,9150

7/822,2 12 167,2

76371,2436,7

MSA 60.с.1.300.200MSA 60.i.1.300.200

8200

23,62600

15380

13330

10,62269,9

17,32440

25,59650

7,9201

7/822,2 12 242

110670,8789,2


ANSI Class 300

Code NPS/DN L D D1 D2 H H1 Dmin d n Weight Cv/Kv

Code NPS/DN L D D1 D2 H H1 Dmin d n Weight Cv/Kv

in/mm

in/mm

MS

A 6

0.c

MS

A 6

0.i

lb/kg

lb/kg


Flanges are designated for installa-tion on the pipelines and pipelines fittings, for single pipeline parts mounting and connection of steel pipes to vessels, ma-chines, devices in various industries.

Flat flange with smooth raised sealing face. 2 mm raised face for Classes 150 and 300. 7 mm raised face for Classes 400 and 600. Flanges are made of carbon or stainless steel by means of casting.

Design types:MS 90.c –made of carbon steel. MS 90.s – made of stainless steelThe manufacturer can also offer

flanges corresponding to other parameters specified by the client

Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300), 64 bar(Class400), 100 bar(Class600)Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C)Working medium..............................................water, gas, oil products and and other media, including aggressive ones, neutral to flange materialsEnvironment temperature................................not less than - 20°F (- 29°C)Full lifetime.......................................................not less than 30 yearsDimensions: ...................................................according to ASME B16.5Pressure/temperature rating...........................according to ASME/ANSI B16.34Testing and inspection.....................................according to API 6D, API 598

MSA 90.cMSA 90.s

Flange

DESIGN



MSA 90.c ASTM A216 WCB

MSA 90.s ASTM A351 CF8M

Part name MaterialMATERIALS LIST

77

MSA 90.с.150.015MSA 90.s.150.015

½15

3,590

2,3860,3

1,3834,9

0,8822,2

1,1930

0,389,6

0,5614

5/815,88 4 1,12

0,51

MSA 90.с.150.020MSA 90.s.150.020

¾20

3,88100

2,7569,9

1,6942,9

1,0927,7

1,538

0,4411,2

0,5614

5/815,88 4 1,45

0,66

MSA 90.с.150.025MSA 90.s.150.025

125

4,25110

3,1279,4

250,8

1,3634,5

1,9449

0,512,7

0,6216

5/815,88 4 1,98

0,9

MSA 90.с.150.032MSA 90.s.150.032

1 ¼32

4,62115

3,588,9

2,563,5

1,743,2

2,3159

0,5614,3

0,7519

5/815,88 4 2,67

1,2

MSA 90.с.150.040MSA 90.s.150.040

1 ½40

5125

3,8898,4

2,8873

1,9549,5

2,5665

0,6215,9

0,8121

5/815,88 4 3,19

1,45

MSA 90.с.150.050MSA 90.s.150.050

250

6150

4,75120,7

3,6292,1

2,4461,9

3,0678

0,6917,5

0,9424

3/419,05 4 5,43

2,47

MSA 90.с.150.065MSA 90.s.150.065

2 ½65

7180

5,5139,7

4,12104,8

2,9474,6

3,5690

0,8120,7

1,0627

3/419,05 4 8,91

4,05

MSA 90.с.150.080MSA 90.s.150.080

380

7,5190

6152,4

5127

3,5790,7

4,25108

0,8822,3

1,1229

3/419,05 4 10,12

4,6

MSA 90.с.150.090MSA 90.s.150.090

3 ½90

8,5215

7177,8

5,5139,7

4,07103,4

4,81122

0,8822,3

1,1930

3/419,05 8 12,36

5,62

MSA 90.с.150.100MSA 90.s.150.100

4100

9230

7,5190,5

6,19157,2

4,57116,1

5,31135

0,8822,3

1,2532

3/419,05 8 15,84

7,2

MSA 90.с.150.125MSA 90.s.150.125

5125

10255

8,5215,9

7,31185,7

5,66143,8

6,44164

0,8822,3

1,3835

7/822,23 8 17,5

7,95

MSA 90.с.150.150MSA 90.s.150.150

6150

11280

9,5241,3

8,5215,9

6,72170,7

7,56192

0,9423,9

1,538

7/822,23 8 21,78

9,9

MSA 90.с.150.200MSA 90.s.150.200

8200

13,5345

11,5298,5

10,62269,9

8,72221,5

9,69246

1,0627

1,6943

7/822,23 8 32,78

14,9

MSA 90.с.150.250MSA 90.s.150.250

10250

16405

14,25362

12,75323,8

10,88276,2

12305

1,1228,6

1,8848

125,4 12 47,3

21,5

MSA 90.с.150.300MSA 90.s.150.300

12300

19485

17431,8

15381

12,88327

14,38365

1,1930,2

2,1254

125,4 12 69,74

31,7

MSA 90.с.150.350MSA 90.s.150.350

14350

21535

18,75476,3

16,25412,8

14,14359,2

15,75400

1,3133,4

2,1956

1 1/8 28,58 12 104,7

47,6

MSA 90.с.150.400MSA 90.s.150.400

16400

23,5595

21,25539,8

18,5469,9

16,16410,5

18457

1,3835

2,4462

1 1/8 28,58 16 115,7

52,6

MSA 90.с.150.450MSA 90.s.150.450

18450

25635

22,75577,9

21533,4

18,18461,8

19,88505

1,538,1

2,6267

1 1/4 31,75 16 160,6

73

MSA 90.с.150.500MSA 90.s.150.500

20500

27,5700

25635

23584,2

20,20513,1

22559

1,6241,3

2,8171

1 1/4 31,75 20 192

87,3

MSA 90.с.150.600MSA 90.s.150.600

24600

32815

29,5749,3

27,25692,2

24,25616

26,12663

1,8146,1

3,1981

1 3/8 34,93 20 289,7

131,7

DIMENSIONS & WEIGHT

Note: MSA90.c — carbon steel flange designMSA90.s — stainless steel flange design

MS

A 9

0.c

MS

A 9

0.s

ANSI Class 150

Code NPS/DN D D1 D2 D3 D4 T B d n Weight in/mm lb/kg

Flange

MSA 90.с.300.015 MSA 90.s.300.015

½15

3,7595

2,6266,7

1,3834,9

0,8822,2

1,538

0,512,7

0,8121

5/8 15,88 4 1,7

0,77

MSA 90.с.300.020 MSA 90.s.300.020

¾20

4,62115

3,2582,6

1,6942,9

1,0927,7

1,8848

0,5614,3

0,9424

3/4 19,05 4 2,42

1,1

MSA 90.с.300.025 MSA 90.s.300.025

125

4,88125

3,588,9

250,8

1,3634,5

2,1254

0,6215,9

125

3/4 19,05 4 3,52

1,6

MSA 90.с.300.032 MSA 90.s.300.032

1 ¼32

5,25135

3,8898,4

2,563,5

1,743,2

2,564

0,6917,5

125

3/4 19,05 4 4

1,82

MSA 90.с.300.040 MSA 90.s.300.040

1 ½40

6,12155

4,5114,3

2,8873

1,9549,5

2,7570

0,7519,1

1,1329

7/8 22,23 4 6,07

2,76

MSA 90.с.300.050 MSA 90.s.300.050

250

6,5165

5127

3,6292,1

2,4461,9

3,3184

0,8120,7

1,2532

3/4 19,05 8 8,14

3,7

MSA 90.с.300.065 MSA 90.s.300.065

2 ½65

7,5190

5,88149,2

4,12104,8

2,9474,6

3,94100

0,9423,9

1,4437

7/8 22,23 8 11,5

5,22

MSA 90.с.300.080 MSA 90.s.300.080

380

8,25210

6,62168,3

5127

3,5790,7

4,62117

1,0627

1,6341

7/8 22,23 8 15,5

7,03

MSA 90.с.300.090 MSA 90.s.300.090

3 ½90

9230

7,25184,2

5,5139,7

4,07103,4

5,25133

1,1228,6

1,6943

7/8 22,23 8 18,4

8,37

MSA 90.с.300.100 MSA 90.s.300.100

4100

10255

7,88200

6,19157,2

4,57116,1

5,75146

1,1930,2

1,8246

7/8 22,23 8 25,0

11,36

MSA 90.с.300.125 MSA 90.s.300.125

5125

11280

9,25235

7,31185,7

5,66143,8

7178

1,3133,4

1,9449

7/8 22,23 8 36,08

16,4

MSA 90.с.300.150 MSA 90.s.300.150

6150

12,5320

10,62269,9

8,5215,9

6,72170,7

8,12206

1,3835

251

7/8 22,23 12 51,2

23,3

MSA 90.с.300.200 MSA 90.s.300.200

8200

15380

13330,2

10,62269,9

8,72221,5

10,25260

1,5639,7

2,3860

125,4 12 69

31,4

MSA 90.с.300.250 MSA 90.s.300.250

10250

17,5445

15,52387,4

12,75323,8

10,88276,2

12,62321

1,8146,1

2,5665

1 1/8 28,58 16 99,5

45,2

MSA 90.с.300.300 MSA 90.s.300.300

12300

20,5520

17,75450,8

15381

12,88327

14,75375

1,9449,3

2,8271

1 1/4 31,75 16 147

66,8

MSA 90.с.300.350 MSA 90.s.300.350

14350

23585

20,25514,4

16,25412,8

14,14359,2

16,75425

2,0652,4

2,9475

1 1/4 31,75 20 192,9

87,7

MSA 90.с.300.400 MSA 90.s.300.400

16400

25,5650

22,5571,5

18,5469,9

16,16410,5

19483

2,1955,6

3,1981

1 3/8 34,93 20 260

118,2

MSA 90.с.300.450 MSA 90.s.300.450

18450

28710

24,75628,6

21533,4

18,18461,8

21533

2,3158,8

3,4487

1 3/8 34,93 24 300,3

136,5

MSA 90.с.300.500 MSA 90.s.300.500

20500

30,5775

27685,8

23584,2

20,20513,1

23,12587

2,4462

3,6994

1 3/8 34,93 24 565,4

257

MSA 90.с.300.600 MSA 90.s.300.600

24600

36915

32812,8

27,25692,2

24,25616

27,62702

2,6968,3

4,13105

1 5/8 41,3 24 737

335

DIMENSIONS & WEIGHT

Note: MSA 90.c — carbon steel flange designMSA 90.s — stainless steel flange design


ANSI Class 300


DIMENSIONS & WEIGHT

MSA 90.с.400.015 MSA 90.s.400.015

½15

3,7595

2,6266,7

1,3834,9

0,8822,2

1,538

0,5614,3

0,8822

5/8 15,88 4 1,91

0,87

MSA 90.с.400.020 MSA 90.s.400.020

¾20

4,62115

3,2582,6

1,6942,9

1,0927,7

1,8848

0,6215,9

125

3/4 19,05 4 2,75

1,25

MSA 90.с.400.025 MSA 90.s.400.025

125

4,88125

3,588,9

250,8

1,3634,5

2,1254

0,6917,5

1,0627

3/4 19,05 4 3,85

1,75

MSA 90.с.400.032 MSA 90.s.400.032

1 ¼32

5,25135

3,8898,4

2,563,5

1,743,2

2,564

0,8120,7

1,1229

3/4 19,05 4 5,24

2,38

MSA 90.с.400.040 MSA 90.s.400.040

1 ½40

6,12155

4,5114,3

2,8873

1,9549,5

2,7570

0,8822,3

1,2532

7/8 22,23 4 7,08

3,22

MSA 90.с.400.050 MSA 90.s.400.050

250

6,5165

5127

3,6292,1

2,4461,9

3,3184

125,4

1,4437

3/4 19,05 8 9,9

4,5

MSA 90.с.400.065 MSA 90.s.400.065

2 ½65

7,5190

5,88149,2

4,12104,8

2,9474,6

3,94100

1,1328,6

1,6241

7/8 22,23 8 13,75

6,25

MSA 90.с.400.080 MSA 90.s.400.080

380

8,25210

6,62168,3

5127

3,5790,7

4,62117

1,2531,8

1,8146

7/8 22,23 8 18,26

8,3

MSA 90.с.400.090 MSA 90.s.400.090

3 ½90

9230

7,25184,2

5,5139,7

4,07103,4

5,25133

1,3835

1,9449

125,4 8 22,55

10,25

MSA 90.с.400.100 MSA 90.s.400.100

4100

10255

7,88200

6,19157,2

4,57116,1

5,75146

1,3835

251

125,4 8 28,82

13,1

MSA 90.с.400.125 MSA 90.s.400.125

5125

11280

9,25235

7,31185,7

5,66143,8

7178

1,538,1

2,1254

125,4 8 41,14

18,7

MSA 90.с.400.150 MSA 90.s.400.150

6150

12,5320

10,62269,9

8,5215,9

6,72170,7

8,12206

1,6241,3

2,2557

125,4 12 56,54

25,7

MSA 90.с.400.200 MSA 90.s.400.200

8200

15380

13330,2

10,62269,9

8,72221,5

10,25260

1,8847,7

2,6968

1 1/8 28,58 12 83,16

37,8

MSA 90.с.400.250 MSA 90.s.400.250

10250

17,5445

15,52387,4

12,75323,8

10,88276,2

12,62321

2,1254

2,8873

1 1/4 31,75 16 116,4

52,9

MSA 90.с.400.300 MSA 90.s.400.300

12300

20,5520

17,75450,8

15381

12,88327

14,75375

2,2557,2

3,1279

1 3/8 34,93 16 168,3

76,5

MSA 90.с..400.350 MSA 90.s..400.350

14350

23585

20,25514,4

16,25412,8

14,14359,2

16,75425

2,3860,4

3,3184

1 3/8 34,93 20 230,1

104,6

MSA 90.с.400.400 MSA 90.s.400.400

16400

25,5650

22,5571,5

18,5469,9

16,16410,5

19483

2,563,5

3,6994

1 1/2 38,1 20 295,2

134,2

MSA 90.с.400.450 MSA 90.s.400.450

18450

28710

24,75628,6

21533,4

18,18461,8

21533

2,6266,7

3,8898

1 1/2 38,1 24 340,6

154,8

MSA 90.с.400.500 MSA 90.s.400.500

20500

30,5775

27685,8

23584,2

20,20513,1

23,12587

2,7569,9

4102

1 5/8 41,3 24 401

182,3

MSA 90.с.400.600 MSA 90.s.400.600

24600

36915

32812,8

27,25692,2

24,25616

27,62702

376,2

4,5114

1 7/8 47,63 24 518,9

235,9

Note: MSA90.c — carbon steel flange designMSA90.s — stainless steel flange design

79

ANSI Class 400


MS

A 9

0.c

MS

A 9

0.s

FlangeDIMENSIONS & WEIGHT

MSA 90.с.600.015MSA 90.s.600.015

½15

3,7595

2,6266,7

1,3834,9

0,8822,2

1,538

0,5614,3

0,8822

5/8 15,88 4 1,89

0,86

MSA 90.с.600.020MSA 90.с.600.020

¾20

4,62115

3,2582,6

1,6942,9

1,0927,7

1,8848

0,6215,9

125

3/4 19,05 4 2,66

1,21

MSA 90.с.600.025MSA 90.s.600.025

125

4,88125

3,588,9

250,8

1,3634,5

2,1254

0,6917,5

1,0627

3/4 19,05 4 3,8

1,73

MSA 90.с.600.032MSA 90.s.600.032

1 ¼32

5,25135

3,8898,4

2,563,5

1,743,2

2,564

0,8120,7

1,1229

3/4 19,05 4 5,12

2,33

MSA 90.с6400.040MSA 90.s.600.040

1 ½40

6,12155

4,5114,3

2,8873

1,9549,5

2,7570

0,8822,3

1,2532

7/8 22,23 4 7,04

3,2

MSA 90.с.600.050MSA 90.s.600.050

250

6,5165

5127

3,6292,1

2,4461,9

3,3184

125,4

1,4437

3/4 19,05 8 9,68

4,4

MSA 90.с.600.065MSA 90.s.600.065

2 ½65

7,5190

5,88149,2

4,12104,8

2,9474,6

3,94100

1,1328,6

1,6241

7/8 22,23 8 14,78

6,72

MSA 90.с.600.080MSA 90.s.600.080

380

8,25210

6,62168,3

5127

3,5790,7

4,62117

1,2531,8

1,8146

7/8 22,23 8 19,58

8,9

MSA 90.с.600.090MSA 90.s.600.090

3 ½90

9230

7,25184,2

5,5139,7

4,07103,4

5,25133

1,3835

1,9449 1 25,4 8 23,98

10,9

MSA 90.с.600.100MSA 90.s.600.100

4100

10,75275

8,5215,9

6,19157,2

4,57116,1

6152

1,538,1

2,1254 1 25,4 8 36,3

16,5

MSA 90.с.600.125MSA 90.s.600.125

5125

13330

10,5266,7

7,31185,7

5,66143,8

7,44189

1,7544,5

2,3860

1 1/8 28,58 8 61,82

28,1

MSA 90.с.600.150MSA 90.s.600.150

6150

14355

11,5292,1

8,5215,9

6,72170,7

8,75222

1,8847,7

2,6267

1 1/8 28,58 12 80,96

36,8

MSA 90.с.600.200MSA 90.s.600.200

8200

16,5420

13,75349,2

10,62269,9

8,72221,5

10,75273

2,1955,6

376

1 1/4 31,75 12 125,8

57,2

MSA 90.с.600.250MSA 90.s.600.250

10250

20510

17431,8

12,75323,8

10,88276,2

13,5343

2,563,5

3,3886

1 3/8 34,93 16 212,3

96,5

MSA 90.с.600.300MSA 90.s.600.300

12300

22560

19,25489

15381

12,88327

15,75400

2,6266,7

3,6292

1 3/8 34,93 20 250

113,6

MSA 90.с.600.350 MSA 90.s.600.350

14350

23,75605

20,75527

16,25412,8

14,14359,2

17432

2,7569,9

3,6994

1 1/2 38,1 20 319,4

145,2

MSA 90.с.600.400MSA 90.s.600.400

16400

27685

23,75603,2

18,5469,9

16,16410,5

19,5495

376,2

4,19106

1 5/8 34,93 20 397,1

180,5

MSA 90.с.600.450MSA 90.s.600.450

18450

29,25745

25,75654

21533,4

18,18461,8

21,5546

3,2582,6

4,62117

1 3/4 44.4 20 517,2

235,1

MSA 90.с.600.500MSA 90.s.600.500

20500

32815

28,5723,9

23584,2

20,20513,1

24610

3,588,9

5127

1 3/4 44.4 24 617,1

280,5

MSA 90.с.600.600MSA 90.s.600.600

24600

37940

33838,2

27,25692,2

24,25616

28,25718

4101,6

5,5140

250,8 24 836

380



ANSI Class 600


Stud

MSA 95.с.1/2/LMSA 95.s.1/2/L 1/2 2 ... 4 / 50 ... 100

by a

gree

men

t with

the

clie

nt

MSA 95.с.5/8/LMSA 95.s.5/8/L 5/8 2,25 ... 4,25/ 60 ... 110

MSA 95.с.3/4/LMSA 95.s.3/4/L 3/4 2,75 ...5,5 / 80 ... 140

MSA 95.с.7/8/LMSA 95.s.7/8/L 7/8 4 ... 6 / 100 ... 150

MSA 95.с.1/LMSA 95.s.1/L 1 4,25 ... 6,75 / 110 ... 170

MSA 95.с.1 1/8/LMSA 95.s.1 1/8/L 1 1/8 4,75 ... 8 / 120 ... 200

MSA 95.с.1 1/4/LMSA 95.s.1 1/4/L 1 1/4 4,75 ... 8,75 / 150 ... 220

MSA 95.с.1 3/8/LMSA 95.s.1 3/8/L 1 3/8 8 ... 10,75 / 200 ...270

MSA 95.с.1 1/2/LMSA 95.s.1 1/2/L 1 1/2 8 ... 10,75 / 200 ... 270

MSA 95.с.1 5/8/LMSA 95.s.1 5/8/L 1 5/8 11 ... 13 / 280 ... 330

MSA 95.с.1 7/8/LMSA 95.s.1 7/8/L 1 7/8 12,5 ... 13,75 / 320 ... 350

MSA 95.c.2/LMSA 95.s.2/L 2 13,25 ... 15,75 / 340 .. 400

MSA 95.c.2 1/4/LMSA 95.s.2 1/4/L 2 1/4 15,75 ... 17 / 400 ... 430

MSA 95.c.2 1/2/LMSA 95.s.2 1/2/L 2 1/2 15,75 ... 18,5 / 400 ... 470

MSA 95.c.2 3/4/LMSA 95.s.2 3/4/L 2 3/4 19,25 ... 20,75 / 490 ... 530

MSA 95.c.3/LMSA 95.s.3/L 3 20,75 ... 22,5 / 530 ... 570

MSA 95.c.3 1/2/LMSA 95.s.3 1/2/L 3 1/2 24 ... 25,5 / 610 ... 650

MSA 95.cMSA 95.s

Note:MSA 95.c — carbon steel stud designMSA 95.s — stainless steel stud designdimension b — by agreement with the client

Working pressure, not higher than........100barWorking medium temperature...............from -20°F (-29°C) to +356°F(+180°C)Environment temperature......................not less than - 20°F (- 29°C)Material..................................................according to ASME B16.5Dimensions............................................according to ASME B16.5Pressure/temperature rating..................according to ASME/ANSI B16.34Testing and inspection..........................according to API 6D, API 598

Studs are designated for application in flanged joints on the pipelines, pipelines fittings, gears, machines and devices in various industries.

Studs for flanged joints with two threaded ends.

Design types:MSA 95.c — made of carbon steel. MSA 95.s — made of stainless steelThe manufacturer can also offer studs

corresponding to other parameters spec-ified by the client.

81

DIMENSIONS

DESIGN


MSA 95.c ASTM A193 B7M

MSA 95.s ASTM A193 B8M


Code d L bin in/mm


MS

A 9

5.c

MS

A 9

5.s

DESIGN



MSA 91.c ASTM A216 WCB

MSA 91.s ASTM A351 CF8M



Flanges are designated for installa-tion on the pipelines and pipelines fittings, for single pipeline parts mounting and connection of steel pipes to vessels, ma-chines, devices in various industries.

Flat blind flange with smooth raised sealing face. 2 mm raised face for Classes 150 and 300. 7 mm raised face for Classes 400 and 600. Flanges are made of carbon or stainless steel by means of casting.

Design types:MSA 91.c –made of carbon steel. MSA 91.s – made of stainless steelThe manufacturer can also offer

flanges corresponding to other param-eters specified by the client.

Working pressure, not higher than........20 bar (Class150), 50 bar (Class300), 64 bar (Class400), 100 bar(Class600)Working medium temperature...............from -20°F (-29°C) to +356°F(+180°C)Working medium...................................water, gas, oil products and other media, including aggressive ones, neutral to flamg materialsEnvironment temperature.....................not less than - 20°F (- 29°C)Full lifetime............................................not less than 30 yearsDimensions: .........................................according to ASME B16.5Pressure/ temperature rating................according to ASME/ANSI B16.34Testing and inspection..........................according to API 6D, API 598

MSA 91.cMSA 91.s

Flange

83

MSA 91.с.150.015MSA 91.s.150.015

½15

3,590

2,3860,3

1,3834,9

0,389,6

5/815,88 4 1,14

0,52

MSA 91.с.150.020MSA 91.s.150.020

¾20

3,88100

2,7569,9

1,6942,9

0,4411,2

5/815,88 4 1,54

0,7

MSA 91.с.150.025MSA 91.s.150.025

125

4,25110

3,1279,4

250,8

0,512,7

5/815,88 4 2,1

0,96

MSA 91.с.150.032MSA 91.s.150.032

1 ¼32

4,62115

3,588,9

2,563,5

0,5614,3

5/815,88 4 2,33

1,06

MSA 91.с.150.040MSA 91.s.150.040

1 ½40

5125

3,8898,4

2,8873

0,6215,9

5/815,88 4 3,04

1,38

MSA 91.с.150.050MSA 91.s.150.050

250

6150

4,75120,7

3,6292,1

0,6917,5

3/419,05 4 5,2

2,36

MSA 91.с.150.065MSA 91.s.150.065

2 ½65

7180

5,5139,7

4,12104,8

0,8120,7

3/419,05 4 7,5

3,4

MSA 91.с.150.080MSA 91.s.150.080

380

7,5190

6152,4

5127

0,8822,3

3/419,05 4 8,14

3,7

MSA 91.с.150.091MSA 91.s.150.091

3 ½90

8,5215

7177,8

5,5139,7

0,8822,3

3/419,05 8 10,12

4,6

MSA 91.с.150.100MSA 91.s.150.100

4100

9230

7,5190,5

6,19157,2

0,8822,3

3/419,05 8 12,1

5,5

MSA 91.с.150.125MSA 91.s.150.125

5125

10255

8,5215,9

7,31185,7

0,8822,3

7/822,23 8 13,86

6,3

MSA 91.с.150.150MSA 91.s.150.150

6150

11280

9,5241,3

8,5215,9

0,9423,9

7/822,23 8 17,16

7,8

MSA 91.с.150.200MSA 91.s.150.200

8200

13,5345

11,5298,5

10,62269,9

1,0627

7/822,23 8 19,6

8,9

MSA 91.с.150.250MSA 91.s.150.250

10250

16405

14,25362

12,75323,8

1,1228,6

125,4 12 28,82

13,1

MSA 91.с.150.300MSA 91.s.150.300

12300

19485

17431,8

15381

1,1930,2

125,4 12 43,34

19,7

MSA 91.с.150.350MSA 91.s.150.350

14350

21535

18,75476,3

16,25412,8

1,3133,4

1 1/828,58 12 55,22

25,1

MSA 91.с.150.400MSA 91.s.150.400

16400

23,5595

21,25539,8

18,5469,9

1,3835

1 1/828,58 16 73

33,2

MSA 91.с.150.450MSA 91.s.150.450

18450

25635

22,75577,9

21533,4

1,538,1

1 1/431,75 16 98

44,5

MSA 91.с.150.500MSA 91.s.150.500

20500

27,5700

25635

23584,2

1,6241,3

1 1/431,75 20 189,2

86

MSA 91.с.150.600MSA 91.s.150.600

24600

32815

29,5749,3

27,25692,2

1,8146,1

1 3/834,93 20 290

131,6

DIMENSIONS & WEIGHT

Note:MSA 91.c —carbon steel flange designMSA 91.s —stainless steel flange design

ANSI Class 150

Code NPS/DN D D1 D2 T d n Weight in/mm lb/kg

MS

A 9

1.c

MS

A 9

1.s


MSA 91.с.300.015MSA 91.s.300.015

½15

3,7595

2,6266,7

1,3834,9

0,512,7

5/815,88 4 1,38

0,63

MSA 91.с.300.020MSA 91.s.300.020

¾20

4,62115

3,2582,6

1,6942,9

0,5614,3

3/419,05 4 2,61

1,19

MSA 91.с.300.025MSA 91.s.300.025

125

4,88125

3,588,9

250,8

0,6215,9

3/419,05 4 2,77

1,26

MSA 91.с.300.032MSA 91.s.300.032

1 ¼32

5,25135

3,8898,4

2,563,5

0,6917,5

3/419,05 4 3,8

1,72

MSA 91.с.300.040MSA 91.s.300.040

1 ½40

6,12155

4,5114,3

2,8873

0,7519,1

7/822,23 4 5,1

2,34

MSA 91.с.300.050MSA 91.s.300.050

250

6,5165

5127

3,6292,1

0,8120,7

3/419,05 8 7,0

3,19

MSA 91.с.300.065MSA 91.s.300.065

2 ½65

7,5190

5,88149,2

4,12104,8

0,9423,9

7/822,23 8 8,5

3,86

MSA 91.с.300.080MSA 91.s.300.080

380

8,25210

6,62168,3

5127

1,0627

7/822,23 8 11,22

5,1

MSA 91.с.300.091MSA 91.s.300.091

3 ½90

9230

7,25184,2

5,5139,7

1,1228,6

7/822,23 8 14,85

6,75

MSA 91.с.300.100MSA 91.s.300.100

4100

10255

7,88200

6,19157,2

1,1930,2

7/822,23 8 17,38

7,9

MSA 91.с.300.125MSA 91.s.300.125

5125

11280

9,25235

7,31185,7

1,3133,4

7/822,23 8 23,3

10,6

MSA 91.с.300.150MSA 91.s.300.150

6150

12,5320

10,62269,9

8,5215,9

1,3835

7/822,23 12 31,9

14,5

MSA 91.с.300.200MSA 91.s.300.200

8200

15380

13330,2

10,62269,9

1,5639,7

125,4 12 42,46

19,3

MSA 91.с.300.250MSA 91.s.300.250

10250

17,5445

15,52387,4

12,75323,8

1,8146,1

1 1/828,58 16 71,6

32,3

MSA 91.с.300.300MSA 91.s.300.300

12300

20,5520

17,75450,8

15381

1,9449,3

1 1/431,75 16 110,7

50,3

MSA 91.с.300.350MSA 91.s.300.350

14350

23585

20,25514,4

16,25412,8

2,0652,4

1 1/431,75 20 192,6

87,3

MSA 91.с.300.400MSA 91.s.300.400

16400

25,5650

22,5571,5

18,5469,9

2,1955,6

1 3/834,93 20 146,3

66,5

MSA 91.с.300.450MSA 91.s.300.450

18450

28710

24,75628,6

21533,4

2,3158,8

1 3/834,93 24 176,2

80,1

MSA 91.с.300.500MSA 91.s.300.500

20500

30,5775

27685,8

23584,2

2,4462

1 3/834,93 24 202,4

92,6

MSA 91.с.300.600MSA 91.s.300.600

24600

36915

32812,8

27,25692,2

2,6968,3

1 5/841,3 24 295

134

Note:MSA 91.c — carbon steel flange designMSA 91.s — stainless steel flange design


ANSI Class 300


DIMENSIONS & WEIGHT

MSA 91.с.400.015MSA 91.s.400.015

½15

3,7595

2,6266,7

1,3834,9

0,5614,3

5/815,88 4 1,5

0,68

MSA 91.с.400.020MSA 91.s.400.020

¾20

4,62115

3,2582,6

1,6942,9

0,6215,9

3/419,05 4 2,53

1,15

MSA 91.с.400.025MSA 91.s.400.025

125

4,88125

3,588,9

250,8

0,6917,5

3/419,05 4 2,8

1,29

MSA 91.с.400.032MSA 91.s.400.032

1 ¼32

5,25135

3,8898,4

2,563,5

0,8120,7

3/419,05 4 4,47

2,03

MSA 91.с.400.040MSA 91.s.400.040

1 ½40

6,12155

4,5114,3

2,8873

0,8822,3

7/822,23 4 6,0

2,73

MSA 91.с.400.050MSA 91.s.400.050

250

6,5165

5127

3,6292,1

125,4

3/419,05 8 7,43

3,38

MSA 91.с.400.065MSA 91.s.400.065

2 ½65

7,5190

5,88149,2

4,12104,8

1,1328,6

7/822,23 8 10,12

4,6

MSA 91.с.400.080MSA 91.s.400.080

380

8,25210

6,62168,3

5127

1,2531,8

7/822,23 8 13,31

6,05

MSA 91.с.400.091MSA 91.s.400.091

3 ½90

9230

7,25184,2

5,5139,7

1,3835

125,4 8 18,2

8,26

MSA 91.с.400.100MSA 91.s.400.100

4100

10255

7,88200

6,19157,2

1,3835

125,4 8 20,1

9,15

MSA 91.с.400.125MSA 91.s.400.125

5125

11280

9,25235

7,31185,7

1,538,1

125,4 8 26,6

12,08

MSA 91.с.400.150MSA 91.s.400.150

6150

12,5320

10,62269,9

8,5215,9

1,6241,3

125,4 12 37,62

17,1

MSA 91.с.400.200MSA 91.s.400.200

8200

15380

13330

10,62269,9

1,8847,7

1 1/8 28,58 12 51,04

23,2

MSA 91.с.400.250MSA 91.s.400.250

10250

17,5445

15,52387,4

12,75323,8

2,1254

1 1/4 31,75 16 75,9

34,5

MSA 91.с.400.300MSA 91.s.400.300

12300

20,5520

17,75450,8

15381

2,2557,2

1 3/8 34,93 16 101

45,9

MSA 91.с..400.350MSA 91.s..400.350

14350

23585

20,25514,4

16,25412,8

2,3860,4

1 3/8 34,93 20 127,8

58,1

MSA 91.с.400.400MSA 91.s.400.400

16400

25,5650

22,5571,5

18,5469,9

2,563,5

1 1/238,1 20 166,1

75,5

MSA 91.с.400.450MSA 91.s.400.450

18450

28710

24,75628,6

21533,4

2,6266,7

1 1/238,1 24 200

90,9

MSA 91.с.400.500MSA 91.s.400.500

20500

30,5775

27685,8

23584,2

2,7569,9

1 5/841,3 24 229

104,1

MSA 91.с.400.600MSA 91.s.400.600

24600

36915

32812,8

27,25692,2

376,2

1 7/8 47,63 24 338,8

154


85

ANSI Class 400


MS

A 9

1.c

MS

A 9

1.s


MSA 91.с.600.015MSA 91.s.600.015

½15

3,7595

2,6266,7

1,3834,9

0,5614,3

5/815,88 4 1,56

0,71

MSA 91.с.600.020MSA 91.s.600.020

¾20

4,62115

3,2582,6

1,6942,9

0,6215,9

3/419,05 4 2,53

1,15

MSA 91.с.600.025MSA 91.s.600.025

125

4,88125

3,588,9

250,8

0,6917,5

3/419,05 4 3,06

1,39

MSA 91.с.600.032MSA 91.s.600.032

1 ¼32

5,25135

3,8898,4

2,563,5

0,8120,7

3/419,05 4 4,84

2,2

MSA 91.с.600.040MSA 91.s.600.040

1 ½40

6,12155

4,5114,3

2,8873

0,8822,3

7/822,23 4 6,0

2,73

MSA 91.с.600.050MSA 91.s.600.050

250

6,5165

5127

3,6292,1

125,4

3/419,05 8 7,4

3,38

MSA 91.с.600.065MSA 91.s.600.065

2 ½65

7,5190

5,88149,2

4,12104,8

1,1328,6

7/822,23 8 10,12

4,6

MSA 91.с.600.080MSA 91.s.600.080

380

8,25210

6,62168,3

5127

1,2531,8

7/822,23 8 13,2

6,0

MSA 91.с.600.090MSA 91.s.600.090

3 ½90

9230

7,25184,2

5,5139,7

1,3835

125,4 8 18,26

8,3

MSA 91.с.600.100MSA 91.s.600.100

4100

10,75275

8,5215,9

6,19157,2

1,538,1

125,4 8 26,18

11,9

MSA 91.с.600.125MSA 91.s.600.125

5125

13330

10,5266,7

7,31185,7

1,7544,5

1 1/8 28,58 8 41,9

19,04

MSA 91.с.600.150MSA 91.s.600.150

6150

14355

11,5292,1

8,5215,9

1,8847,7

1 1/8 28,58 12 47,5

21,6

MSA 91.с.600.200MSA 91.s.600.200

8200

16,5420

13,75349,2

10,62269,9

2,1955,6

1 1/4 31,75 12 73,7

33,5

MSA 91.с.600.250MSA 91.s.600.250

10250

20510

17431,8

12,75323,8

2,563,5

1 3/8 34,93 16 110,2

50,1

MSA 91.с.600.300MSA 91.s.600.300

12300

22560

19,25489

15381

2,6266,7

1 3/8 34,93 20 135

61,4

MSA 91.с.600.350MSA 91.s.600.350

14350

23,75605

20,75527

16,25412,8

2,7569,9

1 1/238,1 20 170

77,3

MSA 91.с.600.400MSA 91.s.600.400

16400

27685

23,75603,2

18,5469,9

376,2

1 5/841,3 20 220,4

100,2

MSA 91.с.600.450MSA 91.s.600.450

18450

29,25745

25,75654

21533,4

3,2582,6

1 3/444.4 20 260

118,2

MSA 91.с.600.500MSA 91.s.600.500

20500

32815

28,5723,9

23584,2

3,588,9

1 3/444.4 24 352

160

MSA 91.с.600.600MSA 91.s.600.600

24600

37940

33838,2

27,25692,2

4101,6

250,8 24 414,5

188,4



ANSI Class 600


Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipeline valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas.

“Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enter-prise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world.

The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specav-tomatika” manufactures the following product range:

— sectional ball valves;— all-welded ball valves;— short pattern flanged ball valves (shortened face-to-face dimension);— threaded end ball valves;— ball valves with an extended stem;— ball valves for application under high pressure for oil and gas working medium;— stainless steel ball valves;— cast iron and steel gauze filters;— connection flanges and fasteners.

“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN 10 to DN 500 inclusive.

Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “Gazprom-Regiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “Bolgar-Gaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc.

In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise.

It should be noted that thanks to the coordinated work of professional team on all the stages of production and dis-tribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.

About usFor notes

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