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Comprehensive Product Data Guide(For North and South America)

Methylsilane

Vinylsilane

Phenylsilane

Methyl chlorideCH3Cl

ChlorobenzeneC6H5Cl

Silicon metalSi

HydrolysisMonomersynthesis

High bonding energySiloxane bonds (-Si-O-Si-) form the basic backbone of silicone. Siloxane bonds have high bonding energy, and this backbone is the same structure which makes up inorganic materials including glass and quartz. Silicones are thus chemically stable and exhibit outstanding heat and weather resistance.

Helical molecular structureThe molecular structure is helical and highly flexible. This quality is what gives silicone its high compressibility and cold-resistant properties. There is little temperature dependence of the physical properties of silicones.

Low intermolecular forceDue to the helical molecular structure and the presence of organic groups (CH3), the intermolecular distance is large and the molecules tend not to agglutinate. This results in the low surface tension of silicones and their properties of water repellency and mold-releasability.

Combining the features of both organics and inorganics

Creating materials with more sophisticated featuresThere is another major feature of silicones: blending technologies can be used to impart additional features, creating all-new materials that have the qualities of other materials combined with those of silicones.

Over 4,000 products, with exploration into new fieldsSince bringing our first silicone products to market in 1953, Shin-Etsu Chemical has worked for half a century developing new applications and products to meet wide-ranging needs. With products in fluid, resin, and rubber forms, Shin-Etsu boasts a total of over 4,000 products. Our products are put to use in a wide range of fields, including the electronics and machinery, and the chemical, textile, construction, and food industries. Silicones are materials with diverse properties and great potential, and Shin-Etsu Chemical’s efforts are ceaseless in the exploration of new directions and applications.

Ever-expanding possibilities

Silicones—high-performance materials

Si

O

Organic groups mainly composed of CH3

Silanes 4

Silane coupling agents 6

Silicone fluids 8

Modified silicone fluids 10

Greases and fluid compounds 12

Textile treatments 14

Release agents 16

Paper release agents 18

Defoaming agents 20

22

Silicone resins 24

Paint additives 26

One-component RTV rubbers 28

30

32

Sealants, construction coating agents 34

Rubber compounds 36

42

44

Fluids

Resin

Liquid rubbers

Rubbers

Silane

Comprehensive Product Guide Contents

Siloxanerefinement

Special groupintroduction

Polymerization

Polymerization

Heat-shrinkable silicone rubber tubing, Heat-dissipating rubber products, Electrically-conductive rubber products

Foam stabilizers, Pressure sensitive adhesives

Two-component RTV rubbers(for electric and electronic applications)

Two-component RTV rubbers(for moldmaking)

LIMS(Liquid silicone rubber Injection Molding System)

with unlimited potential

4

SilanesSilanes are a group of silicon compounds

consisting of chlorosilane, alkoxysilane, and

silazane. Silanes are used in a wide variety of

fields, making use of the unique properties of

silicon compounds.

Protection of the functional groupsProtection of the functional groups during synthesis of pharmaceuticals and agricultural chemicals.

Resin modificationUsed in resin modification and paint modification, and in surface modification of inorganic materials.

Handling precautions

Quality, storage, and health and safety

• Many of the silanes contained in this catalog may be classified as hazardous materials under the fire safety laws of various countries. Please use caution in the use of flame during usage and storage of silanes. Be sure to read the MSDS (Material Safety Data Sheets) before handling. MSDS and Hazardous Materials Database registration certificates are available from our sales department.

• Chlorosilanes are extremely reactive compounds and contact with moisture wil l cause generation of hydrochloric acid gas. Always wear protective gear such as rubber gloves and goggles to prevent contact with the skin and eyes. In case of contact with skin or mucous membranes, wash thoroughly with water and consult a physician immediately. Take care to ensure adequate ventilation to prevent breathing of vapors.

• Always wear protective gear such as rubber gloves and goggles when handling alkoxysilane to prevent contact with the skin and eyes. In case of contact with skin or mucous membranes, wash thoroughly with water and consult a physician if adverse symptoms occur. Take care to ensure adequate ventilation to prevent breathing of vapors.

• When handling large quantities of chlorosilane, please refer to the following manual regarding proper response to accidents such as leakage or fire.

ASTM Manual Series: MNL33“Manual on Chlorosilane Emergency Response Guidelines”Editors: John T. Higgins, Wilmuth E. Hubbs, Robert A. Kayser, Paul Kremer, Stephen W. MacMahan, Lee Patric and Michael Strong (1998)

Chemical name Grade Reagent name

Methyltrichlorosilane KA-13 LS-40

Dimethyldichlorosilane KA-22 LS-130

Trimethylchlorosilane KA-31 LS-260

Phenyltrichlorosilane KA-103 LS-920

Diphenyldichlorosilane KA-202 LS-4270

Methyltrimethoxysilane KBM-13 LS-530

Dimethyldimethoxysilane KBM-22 LS-520

Phenyltrimethoxysilane KBM-103 LS-2750

Diphenyldimethoxysilane KBM-202SS LS-5300

Tetraethoxysilane KBE-04 LS-2430

Methyltriethoxysilane KBE-13 LS-1890

Dimethyldiethoxysilane KBE-22 LS-1370

Phenyltriethoxysilane KBE-103 LS-4480

N-propyltrimethoxysilane KBM-3033 LS-1382

N-propyltriethoxysilane KBE-3033 LS-3120

Hexyltrimethoxysilane KBM-3063 LS-3130

Hexyltriethoxysilane KBE-3063 LS-4808

Decyltrimethoxysilane (high purity) KBM-3103 LS-5258

Decyltrimethoxysilane KBM-3103C —

Trifluoropropyltrimethoxysilane KBM-7103 LS-1090

Hexamethyldisilazane HMDS-3 LS-7150

5

Structural formula Molecular weightSpecific gravity Refractive index Flash point Boiling point

ENCS No.CAS

25°C n 25 D °C °C No.

CH3SiCl3 149.5 1.27 1.4088 -8(closed cup) 66 2-2041 75-79-6

(CH3)2SiCl2 129.1 1.07 1.4022 -7(closed cup) 70 2-2041 75-78-5

(CH3)3SiCl 108.6 0.85 1.3868 -15(closed cup) 57 2-2041 75-77-4

C6H5SiCl3 211.6 1.32 1.5222 91(open cup) 202 3-2634 98-13-5

(C6H5)2SiCl2 253.2 1.22 1.5800 142(open cup) 305 3-2634 80-10-4

CH3Si(OCH3)3 136.2 0.95 1.3687 8(closed cup) 102 2-2052 1185-55-3

(CH3)2Si(OCH3)2 120.2 0.86 1.3706 -10(closed cup) 82 2-2052 1112-39-6

C6H5Si(OCH3)3 198.3 1.06 1.4732 94(open cup) 218 3-2635 2996-92-1

(C6H5)2Si(OCH3)2 244.4 1.08 1.5445 145(open cup) 304 2-2635 6843-66-9

Si(OC2H5)4 208.3 0.93 1.3811 54(closed cup) 168 2-2048 78-10-4

CH3Si(OC2H5)3 178.3 0.89 1.3830 40(closed cup) 143 2-2052 2031-67-6

(CH3)2Si(OC2H5)2 148.3 0.83 1.3839 15(closed cup) 114 2-2052 78-62-6

C6H5Si(OC2H5)3 240.4 0.99 1.4588 111(open cup) 236 3-2635 780-69-8

CH3(CH2)2Si(OCH3)3 164.3 0.93 1.3880 36(closed cup) 142 2-2052 1067-25-0

CH3(CH2)2Si(OC2H5)3 206.4 0.89 1.3940 57(closed cup) 179 2-2052 2550-02-9

CH3(CH2)5Si(OCH3)3 206.4 0.91 1.4060 76(closed cup) 202 2-2052 3069-19-0

CH3(CH2)5Si(OC2H5)3 248.4 0.88 1.4078 95(open cup) 120.6°C/2.8kPa 2-2052 18166-37-5

CH3(CH2)9Si(OCH3)3 262.5 0.90 1.4209 135(open cup) 132°C/1.3kPa 2-3512 5575-48-4

CH3(CH2)9Si(OCH3)3 262.5 0.90 1.4209 96(open cup) 132°C/1.3kPa 2-3512 5575-48-4

CF3CH2CH2Si(OCH3)3 218.2 1.14 1.3520 23(closed cup) 144 2-2079 429-60-7

(CH3)3SiNHSi(CH3)3 161.4 0.77 1.4080 14(closed cup) 126 2-2955 999-97-3

ENCS:Japanese Existing and New Chemical Substances List 20°C (Not specified values)

6

Silane coupling agentsSilane coupling agents contain at least two

different reactive groups within their molecules.

One of these functional groups forms chemical

bonds with inorganic materials, and the other

forms chemical bonds with organic materials.

This property enables silane coupling agents to

function as intermediaries in bonding organic

materials to inorganic materials, which normally

tend not to bond with each other.

Higher-quality composite materialsSilane coupling agents improve dispersion during mixing of resins and fillers, and improve the mechanical strength, water and heat resistance, transparency, adhesion and other properties of the composite materials. Silane coupling agents are also highly effective in improving the chemical bonding of heat-cure resins and their compatibility with polymers.

Resin modificationThrough reaction with resins, silane coupling agents can improve the adhesion of resins to inorganic materials and impart low-temperature, low-moisture curability, and improve weather and heat resistance, and resistance to acids and solvents.

Handling precautions

Quality, storage, and handling

• Silane coupling agents hydrolyze if they come into contact with water or moisture, causing a change in properties and generation of substances such as ethanol and methanol. Therefore, use caution not to leave open and always seal tightly after use to prevent the incursion of water or moisture. Replacing the air in the storage container with dry nitrogen is ideal.

• Please read the MSDS before use. MSDS are available from our sales department.

FunctionalChemical name Grade

group

Vinyltrimethoxysilane KBM-1003

Vinyl

Vinyltriethoxysilane KBE-1003

2-(3,4 epoxycyclohexyl) ethyltrimethoxysilane KBM-303

3-glycidoxypropyltrimethoxysilane KBM-403

Epoxy

3-glycidoxypropylmethyldiethoxysilane KBE-402

3-glycidoxypropyltriethoxysilane KBE-403

3-methacryloxypropylmethyldimethoxysilane KBM-502

3-methacryloxypropyltrimethoxysilane KBM-503

Methacryloxy

3-methacryloxypropylmethyldiethoxysilane KBE-502

3-methacryloxypropyltriethoxysilane KBE-503

Acryloxy 3-acryloxypropyltrimethoxysilane KBM-5103

N-2(aminoethyl)3-aminopropylmethyldimethoxysilane KBM-602

N-2(aminoethyl)3-aminopropyltrimethoxysilane KBM-603

3-aminopropyltrimethoxysilane KBM-903

Amino 3-aminopropyltriethoxysilane KBE-903

3-triethoxysilyl-N-(1,3-dimethyl-butyliden)KBE-9103

propylamine and partially hydrolyzed substances

N-phenyl-3-aminopropyltrimethoxysilane KBM-573

N-(vinylbenzyl)-2-aminoethyl-3-KBM-575

aminopropyltrimethoxysilane hydrochloride

3-mercaptopropylmethyldimethoxysilane KBM-802

Mercapto

3-mercaptopropyltrimethoxysilane KBM-803

Polysulfide Bis(triethoxysilylpropyl)tetrasulfide KBE-846

Isocyanate 3-isocyanatepropyltriethoxysilane KBE-9007

7

Structural formulaMolecular Specific Refractive Flash point Boiling point

ENCS No. CAS No. Applicable resinsweight gravity 25°C index 25°C °C °C

ENCS:Japanese Existing and New Chemical Substances List (Not specified values)

(CH3O)3SiCH=CH2 148.2 0.97 1.391 23(closed cup) 123 2-2066 2768-02-7

(C2H5O)3SiCH=CH2 190.3 0.90 1.397 54(closed cup) 161 2-2066 78-08-0

246.4 1.06 1.448 163(open cup) 310 3-2647 3388-04-3 epoxy, etc.

236.3 1.07 1.427 149(open cup) 290 2-2071 2530-83-8

248.4 0.98 1.431 128(open cup) 259 2-2072 2897-60-1

278.4 1.00 1.425 144(open cup) 124°C/0.40kPa 2-2071 2602-34-8

232.4 1.00 1.433 115(open cup) 83°C/0.40kPa 2-2075 14513-34-9

248.4 1.04 1.429 125(open cup) 255 2-2076 2530-85-0

260.4 0.96 1.432 136(open cup) 265 2-2075 65100-04-1

290.4 0.99 1.427 128(open cup) 129°C/0.67kPa 2-2076 21142-29-0

234.3 1.06 1.427 115(open cup) 102°C/0.53kPa 2-3727 4369-14-6

206.4 0.97 1.447 110(open cup) 234 2-2084 3069-29-2

(CH3O)3SiC3H6NHC2H4NH2 222.4 1.02 1.442 128(open cup) 259 2-2083 1760-24-3

(CH3O)3SiC3H6NH2 179.3 1.01 1.422 88(open cup) 215 2-2061 13822-56-5

(C2H5O)3SiC3H6NH2 221.4 0.94 1.420 98(open cup) 217 2-2061 919-30-2

— 0.92 1.437 134(open cup) — 7-2673 —

255.4 1.07 1.504 165(open cup) 312 3-2644 3068-76-6

Methanol solution,— 0.91 — 11(closed cup) — 3-3378 34937-00-3

active ingredients: 40%

180.3 1.00 1.448 72(closed cup) 204 2-3498 31001-77-1

(CH3O)3SiC3H6SH 196.4 1.06 1.440 93(open cup) 219 2-2045 4420-74-0

urethane, epoxy, rubber, etc.

(C2H5O)3SiC3H6S4C3H6Si(OC2H5)3 — 1.08 1.486 212(open cup) — 2-3124 40372-72-3 rubber, etc.

(C2H5O)3SiC3H6N=C=O 247.4 1.00 1.418 118(open cup) 250 2-3880 24801-88-5 urethane, fluorine, acrylic, etc.

polyethylene,polypropylene, etc.

acrylic, urethane,epoxy, phenol, etc.

unsaturated polyester, acrylic, EVA, etc.

phenol, urethane, epoxy, polyimide, nylon, etc.

(CH3O)3SiC2H4

O

(CH3O)3SiC3H6OCH2CH CH2

O

O(C2H5O)2SiC3H6OCH2CH CH2

CH3

(C2H5O)3SiC3H6OCH2CH CH2

O

(CH3O)2SiC3H6OCC=CH2

O

=

CH3 CH3

O

=(CH3O)3SiC3H6OCC=CH2

CH3

(C2H5O)2SiC3H6OCC=CH2

O

=

CH3CH3

(C2H5O)3SiC3H6OCC=CH2

O

=

CH3

(CH3O)3SiC3H6OCCH=CH2

O

=

(CH3O)2SiC3H6NHC2H4NH2

CH3

(C2H5O)3SiC3H6N=CC4H9

CH3

(CH3O)3SiC3H6NH

(CH3O)2SiC3H6SHCH3

8

Silicone fluidsSilicone fluids are generally colorless transparent

liquids. They exhibit excellent resistance to heat,

cold, and moisture. There is also little viscosity

change in silicone fluids over a wide temperature

range, and they have outstanding electrical

properties. In addition, they are notable for their

characteristics of mold-releasability, water

repellency, lubricity, and defoaming properties.

Heat resistanceSilicone fluids have outstanding stability against thermal oxidation.

Cold resistanceSilicone fluids withstand low temperatures well. Methylphenyl silicone fluid, formulated for low temperature applications, maintains flowability even at -65°C.

Viscosity stabilityThere is l i t t le change in v iscosi ty over a wide temperature range.

Chemical stabilitySilicone fluids are almost totally chemically inactive. At room temperature, they show almost no effects from alkali solutions (up to 10%) or acidic solutions (up to 30%).

Non-corrosive and little effect on other materialsSilicone fluids have almost no adverse effects on metals and many other materials.

Low surface tensionSilicone fluids have much lower surface tension than water and other common synthetic oils.

Applications Grade Appearance

Colorless transparent liquid

General purpose

DM-FLUID A Colorless transparent liquid



Paint additive F-6W-9 Colorless transparent liquid

Water repellency treatment F-9W-9 Colorless transparent liquid

Low-temperature applications F-5W-0 Colorless transparent liquid

KF-54 Colorless transparent liquid

High-temperature applications KF-965 Brown liquid

KF-968 Pale yellow transparent liquid

For oil diffusion pumps

HIVAC-F-4 Colorless transparent liquid

HIVAC-F-5 Colorless transparent liquid

Additives for cosmetics



DM-FLUID(Low viscosity)

DM-FLUID(Medium viscosity)

DM-FLUID(High viscosity)

9

Viscosity Specific gravity Volatile matter content Refractive indexFeatures

25°C mm2/s 25°C 150°C/24h % n 25 D

0.65-5 0.760-0.915 1.375-1.396

6 0.925 5.0 max. 1.397

10-5000 0.935-0.975 1.399-1.403

6000-1000000 0.975-0.978 0.5 max. or 15 max. 1.403

20 0.950 25 1.400

20 1.000 5 max. 1.396

100-3000 0.997-1.000 0.5 max. 1.425

400 1.070 0.5 max. 1.505

100-10000 0.965-0.975 0.5 max. 1.403

100 0.965 0.5 max. 1.403

37 1.065 Boiling point 210°C/5mmHg 1.555

160 1.097 Boiling point 240°C/6mmHg 1.575

15 0.995 15 1.500

4 0.956 Boiling point 210°C 1.396

105°C/3h (Not specified values)

Dimethyl silicone fluidThe most typical product of all silicone fluids.

Dimethyl silicone fluidImproves gloss while preventing orange peel and silking in paints.

Methylhydrogen silicone fluidHighly water repellent. Suitable for processing of glass, metal, fibers, and powders.

Methylphenyl silicone fluidFor low-temperature applications(-60°C to +200°C).

Methylphenyl silicone fluidFor high-temperature applications (-30°C to +250°C).Suitable as a heating medium in closed systems.

Dimethyl silicone fluidFor high-temperature applications (-50°C to +250°C).Suitable as a heating medium in open systems.

Dimethyl silicone fluidFor high-temperature applications (-50°C to +250°C).Suitable as a heating medium in closed systems.

Methylphenyl silicone fluidSuperior chemical resistance and resistance to oxidation.For high-level vacuums of 10-7 to 10-12 Torr.HIVAC F-5 can reach higher degrees of vacuum.

Methylphenyl silicone fluidAlcohol-soluble.

Cyclic dimethyl silicone fluidVolatile. No residue after volatilization, so cosmetics have a dry feel.

40 max., 4.0 max.,1.5 max. or 0.5 max.

0.65cs-2cs:Boiling point 100-230°C

5cs:40 max.

10

Modified silicone fluidsModified silicone fluids are silicone fluids with

additional functionality beyond the already fine

properties of common dimethyl silicone fluid.

This is achieved through the introduction of

various organic groups. Depending on the

organic group, silicone fluids can be given

properties of water-solubility, compatibility or

reactivity with various organic materials,

paintability, and greater lubricity.

Features of dimethyl silicone fluid· Water repellency · Thermal oxidation stability · Chemical stability · Defoaming properties

Features gained through introduction oforganic groups· Paintability · Solubility and dispersibility in water · Compatibility or reactivity with organic materials · Antistatic properties · Flexibility · Lubricity

Applications Grade

Paint additive, plastic additive, mold-release agent KF-410

Paint additive, water repellent for construction applications, mold-release agent KF-412

KF-351

KF-352

KF-353

KF-354L

KF-355A

KF-615A

KF-618

KF-945

KF-6004

Lubricant, defoaming agent FL-100

Anticlouding agent, textile oleumKF-905

KF-700

KF-859

KF-861

KF-864

KF-880

KF-8010

X-22-161A

X-22-161B

KF-8012

Paint additive, resin modification, rustproofing agent KF-2001

KF-1001

Textile oleum, resin modification, wax, paint additive KF-101

KF-102

Textile oleum, resin modification, gloss enhancer, dispersantX-22-3701E

X-22-3710

Resin modification, paint additive KF-910

Wax, gloss enhancer KF-3935

Resin modification, paint additive X-22-2404

X-22-160AS

Resin modification, paint additiveKF-6001

KF-6002

KF-6003

Ingredient of cosmetics, emulsifier, foam stabilizer, plastic additive, anticlouding agent, defoaming agent, textile oleum, water-soluble lubricant

Textile oleum, resin modification, paint additive, gloss enhancer, wax

11

Viscosity Specific gravity Refractive indexFeatures

25°C mm2/s 25°C n 25 D

900 1.02 1.480 Methylstyryl-modified. Good compatibility with organic resins.

500 0.90 1.448 Alkyl-modified. Good compatibility with organic resins.

80 1.06 1.450 Polyether-modified. Cloud point 65°C, Low surface tension, H.L.B. 12.

1600 1.03 1.446 Polyether-modified. Cloud point 35°C, good lubricity, H.L.B. 7.

400 1.04 1.438 Polyether-modified. Self-emulsifying, H.L.B. 10.

200 1.10 1.463 Polyether-modified. Cloud point 87°C, low-foaming, H.L.B. 16.

140 1.07 1.453 Polyether-modified. Good water-solubility, H.L.B. 12.

1000 1.05 1.451 Polyether-modified. Cloud point 65°C, H.L.B. 10.

20 1.01 1.442 Polyether-modified. Low molecular weight, low surface tension, H.L.B. 11.

140 1.00 1.420 Water insoluble. Defoaming, H.L.B. 4.

Pale yellow solid — — Melting point 45°C, H.L.B. 5.

100, 450, 1000, 10000 1.23-1.30 1.379-1.382 Fluoro-modified. Lubricity, chemical resistance, solvent resistance, oil resistance.

500 1.03 1.448 Special modified fluid with hydrophilic properties. Adds lubricity.

15 1.15 — Special modified fluid with hydrophilic properties. Adds lubricity, 40% aqueous solution.

60 0.96 1.403

3500 0.98 1.407

1700 0.98 1.406

650 0.98 1.407

12 1.00 1.412

25 0.97 1.411

55 0.97 1.408

90 0.97 1.407

200 0.98 1.408 Mercapto-modified. Reactivity, adsorbability.

17000 0.98 1.406

1500 1.01 1.437 Epoxy-modified. Reactivity, adsorbability, mold-releasability, flexibility.

4000 0.97 1.410

2000 0.98 1.407Carboxyl-modified. Reactivity, lubricity, mold-releasability, flexibility.

55 0.97 1.412

35 0.90 — Higher fatty acid ester-modified. Melting point 45°C, good compatibility with organic resins.

Pale yellow paste 0.94 — Contains higher fatty acids. Melting point 49°C.

5 0.93 1.418 Methacryl-modified. Reactivity, absorbability, oxygen permeability.

35 0.98 1.422

45 0.98 1.414

70 0.98 1.412Carbinol-modified. Reactivity, mold-releasability, oxygen permeability.

110 0.98 1.410

60°C (Not specified values)

Amino-modified. Water repellency, reactivity, adsorbability, lubricity, mold-releasability, flexibility.

12

Silicone greases start with a base oil of silicone

fluid, to which are added various additives and

fillers (metal soap, etc.). Silicone greases exhibit

thermal oxidation stability over a wide

temperature range, offer good moisture-

resistance, and are used primarily for lubrication.

Silicone fluid compounds are products with a

grease-like consistency. They are produced by

blending materials such as silica powder into a

base oil of silicone fluid. They exhibit thermal

oxidation stability over a wide temperature range

and have outstanding electrical properties and

water repellency. Silicone fluid compounds are

used primarily in electrical insulators and seals,

and for heat dissipation and water repellency.

Heat and cold resistanceBecause the silicone fluid base oil has good resistance to heat and cold, the drop point is high, there is little oil separation, and volatile matter content is low.

Moisture resistanceThese products have good resistance to water and moisture. Silicone greases can be left underwater for long periods; the surface will turn white, but there is almost no internal change.

SafetyThe silicone fluid base oil is chemically inactive, so these products pose almost no risk to humans and animals.

EfficiencyExcellent performance even when used in small amounts.

Greases and fluid compounds

Low-temperature lubrication G-3W-0 Series Grayish white

G-40 Series Beige / Dark brownHigh-temperature lubrication

G-420 White

Solvent-resistant lubricant FG-720 Series White

Non-mineral oil lubrication for rubbers G-411 Brown

Plastic lubrication G-501 White to pale yellow

Lubrication for sliding parts G-6500 Beige

G-330 Series White / blue

Adhesive applications G-340 Series Pale yellow

(torque, damper) G-350 Series White

G-630 Series

KS-62F Tinted white

KS-62M White translucent

Electrical insulation, seals KS-63W White

KS-64F White

KS-64 White

Insulator protection in salty air,electrical insulation KS-63G Green

KS-609 White

KS-613 White

G-747 White

X-23-7795 White

Heat dissipation G-765 Gray

G-750 Gray

G-751 Gray

X-23-7762 Gray

X-23-7783D Gray

Electrical conductionKS-660 Black

KS-660B Black

High vacuum seals HIVAC-G White

Rustproof seals KS-622 Creamy white

KS-65A WhiteValve seals

KS-623 White

Silicone rubbersKS-650N Creamy white translucent

KS-651 Pale yellow-yellow

Optical applications Optseal Highly transparent


CategoryGreases

Fluid compounds

Colorless-pale yellow transparent /pale yellow-creamy white translucent

13

200-320 0.5-5.7 0.35-0.41 -60°C to +180°C Suitable for lubrication in extremely low temperature applications, in which petroleum greases cannot be used.

200-320 3.0-8.9 0.3-0.4 -30°C to +200°C Suitable for lubrication of sealed bearings. Performance complies with MIL-L-15719A.

281 5.73 0.33 -30°C to +250°C Good lubrication particularly at high temperatures.

281-303 0.2-3.93 0.3-0.53 -30°C to +200°C Especially good boundary lubrication and solvent resistance.

303 5.1 1.4 -30°C to +200°C For rubber cups of automotive brakes.

306 2.52 0.12 -50°C to +150°C Does not cause stress cracking in plastic. Good lubrication for steel on steel.

414 5.04 0.24 -40°C to +120°C For low RPM applications.

250-3071 0.01-0.384 0.05-0.064 -30°C to +150°C General purpose.

158-1821 0.02-0.064 0.06-0.084 -40°C to +100°C For low temperature applications. Little change in torque values in temperatures ranging from -30°C to +60°C.

242-2641 0.014 0.11-0.254 -30°C to +150°C High adhesion type.

213-2351 0.02-0.784 0.06-0.074 -0°C to +80°C For bearings. Good feel. Base oil is non-silicone.

— — < 1.03 -30°C to +250°C Heat-resistant. Paste consistency.

229 1.33 0.33 -30°C to +250°C Heat-resistant.

225 2.92 0.12 -50°C to +200°C General purpose.

385 182 0.12 -50°C to +200°C Paste.

246 5.83 0.13 -50°C to +200°C Performance meets MIL-S-8660B specifications.

209 0.82 0.12 -50°C to +200°C Complies with JRS standards.

328 0.33 0.33 -55°C to +200°C Thermal conductivity: 0.73W/m·K. General purpose.

346 2.33 0.33 -50°C to +250°C Thermal conductivity: 0.76W/m·K.





4206 0.012 0.102 -50°C to +120°C Thermal conductivity: 4.5W/m·K. Not high insulation.

1806 — 2.582 -50°C to +120°C Thermal conductivity: 6.0W/m·K (After evaporation of solvent). Not high insulation.

2006 — 2.432 -50°C to +120°C Thermal conductivity: 5.5W/m·K (After evaporation of solvent). Fine filler is used. Not high insulation.

247 8.03 0.23 -50°C to +200°C Volume resistivity: 0.49Ω·m.

301 3.882 0.12 -50°C to +200°C High lubricity version of KS-660.

209 0.13 0.13 -50°C to +200°C Good thermo-oxidative stability and chemical stability. Can be used for high vacuums of 10-6 Torr.

268 2.742 0.442 -50°C to +160°C Good rustproofing effect on copper.

221 1.13 0.13 -50°C to +200°C Suitable for sealing and lubrication of valves, stopcocks, and

211 1.93 0.23 -50°C to +200°C packing of common chemical equipment.

263 0.74 0.54 -10°C to +100°C Does not cause swelling of silicone rubber. Good electrical insulation.

258 2.02 0.12 -50°C to +170°C Does not cause swelling of silicone rubber. Good electrical properties and temperature characteristics.

300 03 1.13 -40°C to +200°C Good light transmissivity. Refractive index (n25 D) 1.4690.

Oil separation Volatile matter content Usage temperatureFeatures

150°C/100h % 150°C/100h % range

Penetration25°C/JIS·

worked

1:25°C/JIS·unworked 2:150°C/24h 3:200°C/24h 4:105°C/24h 5:120°C/24h 6:Viscosity(Pa·s) (Not specified values)

14

Textile treatmentsSilicones are chemically inactive, have very

low surface tension and provide good water

repellency, releasability, and lubrication. Thus,

silicones are also commonly used as fiber and

fabric processing agents. They are used to treat

natural and synthetic fibers or fabrics to make

them water repellent or waterproof, to impart

flexibility, and are commonly used to improve

the texture and sewability of textile goods,

resulting in higher grade and more functional

products.

Water repellencyForms a coating (oil film or hard coating) on textiles to provide excellent water repellency.

FlexibilitySilicone greatly reduces the friction coefficient between fibers to achieve distinctive softness.

DurabilityThe flexible film which forms on the fiber surface improves the durability of the fabric with respect to washing and dry cleaning.

Rebound resiliency (“stretch-back”)Fabrics have excellent rebound resiliency due to the flexible elastic coating which forms on the fiber surface.

TransparencySilicone processing agents improve the hyperchromic effect and colorfastness due to the transparent coating which forms on the fiber surface.

Weather and heat resistanceThe chemical bonds which form the backbone are siloxane bonds (Si-O-Si), so the interatomic bonding energy of these processing agents is high and they have excellent weather and heat resistance.

SR processing agents, water-absorptionprocessing agents


Polon MF-14 Creamy white liquid

Polon MF-14D Creamy white liquid

Polon MF-14EC Translucent liquid





Texture improving agentsPolon MF-24 Creamy white liquid

Softenerseal 10 Creamy white liquid





KM-2002L-1 Creamy white liquid

KM-2002T Creamy white liquid


Polon MR Creamy white liquid

Polon MWS Creamy white liquid

Polon MK-206 Creamy white liquid

Water repellentsKS-724A Colorless transparent liquid

KS-7002 Colorless transparent liquid

Poloncoat E Colorless to pale yellow transparent liquid


Polon MF-33A Creamy white liquid

Polon MF-55 Creamy white liquidTextile oleums

Polon MNS Creamy white liquid

Polon SR-Conc Pale yellow transparent liquid

Polon SR-Conc-2 Pale yellow translucent liquid

Polon MF-13 Fluorescent liquid


SILFIX Creamy white liquid

Special processing agentsPolon MF-28 Translucent liquid


Polon MF-50 Pale yellow transparent liquid

15

(Not specified values)

Non-volatile matter content105°C/3h %

pH Ionic Typical catalyst Features

15 7.0 Non-ion — Amino-modified silicone emulsion. Improved softness and sewability.

33 5.0 Non-ion — Amino-modified silicone emulsion. Slimy to the touch, fluffy feel.

34 7.0 Non-ion — Amino-modified silicone emulsion. The slimiest to the touch.

30 4.0 Non-ion — Amino-modified silicone emulsion. Improves smoothness and softness.

40 6.0 Non-ion — Amino-modified silicone emulsion. Yields a smooth, soft texture.

32 6.5 Cation — Amino-modified silicone emulsion. Yields a resilient, soft texture.

38 7.5 Non-ion — Epoxy-modified silicone emulsion. Improves smoothness and softness.

32 7.0 Anion — Epoxy-modified silicone emulsion. Yields a soft texture with good smoothness.

30 6.0 Non-ion — Low-viscosity silicone emulsion. Improves cutting properties and sewability.

33 7.0 Non-ion — High-viscosity reactive silicone emulsion. Improves softness.

31 6.0 Anion — High-viscosity reactive silicone emulsion. Imparts a fluffy feel.

30 4.0 Anion Cat PM 4PS 2 Reactive softener. Yields an elastic texture.

30 4.0 Non-ion Cat PM 4PS 2 Reactive softener. Yields a soft texture with good stretch-back.

44 6.0 Anion — Reactive softener. Yields a fluffy texture with good resiliency.

40 6.0 Anion — Reactive softener. Coating and anti-melt processing possible.

40 5.0 Anion — Reactive softener. Excellent anti-shrink effect and rebound resiliency.

60 4.0 Non-ion Cat LZ-1 Emulsion type. General purpose. Rather hard finish.

29 4.0 Non-ion — Emulsion type. Suitable for fibers that cannot be heated to high temperatures.

32 3.0 Cation Cat FZ Emulsion type. Excellent durability to repeated washings.

29 — — Cat CP-47N Solvent type. Suitable for water repellency and non-stick treatment of soft finishes and coated surfaces.

54 — — — Solvent type. Can be used on leathers.

27 — — Cat PG / Cat PD Solvent type. Long-lasting waterproofing is possible.

22 3.5 Non-ion Cat PM 4PS 2 For inorganic fibers. Can be used with a catalyst in low-temperature processing.

30 6.0 Anion — For inorganic fibers. Good compatibility with phenol resins.

33 4.0 Non-ion — General purpose. Imparts lubricity to nonwoven cloth.

31 6.5 Anion — Imparts smoothness to nonwoven cloth.

100 — — — Hydrophilic polyester-modified silicone. Suitable for antistatic processing and water-absorption processing.

100 — — — Hydrophilic polyester-modified silicone. Good dispersion in warm water.

12 7.0 Non-ion — Hydrophilic polyester-modified silicone. Suitable for SR processing and antistatic processing.

25 5.5 Anion Cat PM 4PS 2 Long-lasting water-absorption effect.

16 10.0 Non-ion — Slip prevention agent. Silica powder dispersion liquid.

16 6.0 Anion — Slip prevention agent. Organic colloidal silica dispersion liquid.

20 — — — Tack prevention agent.

40 7.0 Cation — Antibacterial agent.

16

Release agentsThe surface tension of silicone is low and it

spreads easily, so it provides good wetting of

fine, irregular surfaces. It is chemically inactive

and can be used with almost all molding

materials. Silicone has excellent heat and cold

resistance and offers good performance over a

wide temperature range. These characteristics

are why silicone is used as a mold-release agent

in a range of industries including the rubber

industry, resin industry, food processing industry,

and die casting. Silicone mold-release agents

are available in various forms including

emulsions, oil types, solvent types, bake-on

types, and sprays.

VersatilityCan be used in diverse applications including rubbers, plastics, metals, and foods.

Mold-releasabilitySilicone mold-release agents are non-compatible with almost all organic materials, so they offer outstanding mold-release performance.

Heat and cold resistanceThey have excellent resistance to heat and cold and provide good mold-release results over a wide temperature range.

Chemical stabilityThey are chemically inactive, so they do not cause corrosion, swelling, or deformation of molds or molded items.

Can be used on complex moldsSilicone mold-release agents have low surface tension, so they provide good wetting of intricately shaped molds. This means that even complex molded items release easily from the mold.


KM-9736 Creamy white liquid












KM-860A Creamy white liquid


Silcast U Creamy white liquid

DM-FLUID Colorless transparent liquid

KF-965 Brown liquid


KF-410 Pale yellow liquid



KM-244F Pale yellow transparent liquid

K-S61 White translucent paste

KS-702 Colorless to pale yellow transparent liquid

KS-725 Pale yellow transparent liquid


KS-700 Colorless to pale yellow transparent liquid

KS-7201 Light brown transparent liquid

KS-7200 Light orange transparent liquid

SEPA-COAT Colorless transparent liquid

Paintable applications KF-412SP Pale yellow liquid

High-temperature applications KF-965SP Brown liquid

For rubbers and plastics RELEASE Colorless transparent liquid

CategoryEm

ulsion typeOil type

Solvent typeBake-on type

Spray type

Rubber industry,resin industry,food processing industry,die casting,surface processing,synthetic fibers

17

Viscosity Specific gravitySolvent Features

25°C 25°C

Non-volatilematter content105°C/3h %

Low 1.00 33 — For food packaging containers. Low stickiness.

Low 1.00 33 — For food packaging containers.

Low 1.00 33 — For food packaging containers. Low stickiness and good antiblocking effect.

Low 1.02 33 — For food packaging containers. Good paintability.

Medium 0.96 30 Xylene (20%) Acts to clean molds. Good wetting of molds.

Low 0.99 38 — General industrial use. Good gloss enhancement and surface lubrication.

Low 1.00 28 — General industrial use. KM-740 low-concentration type.

Low 1.00 30 —

High 1.00 30 —General industrial use. Good dilution stability,

High 1.00 30 —

High 1.00 383 —mechanical stability, and storage stability.

High 1.00 61 —

Low 1.00 60 — Concentrated type. Good cost performance.

High 1.00 60 — Concentrated type. Viscosity of the base oil is higher than that of KM-860A.

Medium 0.97 32 — Suitable for die casting.

100-100000 0.97 over 98.52 — Suitable for applications in which water and solvents cannot be used.

100-1000/100000 0.97 over 98.52 — Good thermal oxidation stability even at temperatures above 250°C.

400 1.07 over 991 — Good paintability.

900 1.02 over 981 — Methylstyryl-modified. Good heat resistance.

500 0.90 over 971 — Long chain alkyl-modified. Good paintability and lubricity.

700 0.89 over 951 — Long chain alkyl-modified. Good paintability.

1600 1.03 — — Water-soluble type. Can be diluted with water or alcohol.

— — over 992 — Paste type. Long-lasting with good heat resistance and lubricity.

— 0.82 5 Industrial gasoline High-viscosity dimethyl silicone fluid base.

— 0.86 50 Petroleum hydrocarbons Particularly long-lasting.

— 0.99 50 Toluene Suitable for heat-cure resins.

— 0.83 15 Industrial gasoline Little migration of the mold-release agent to the molded item. Provides repeated mold-release.

— 0.79 15 Industrial gasoline For low-temperature bake-on applications.

— 0.81 20 Industrial gasoline Food processing industry applications. Passes Notification 20 of the Ministry of Health and Welfare.

— 0.80 — Ethyl acetate

Synthetic isoparaffinForms film at room temperature.

— — — — KF-412 spray.

— — — — KF-965-100cs spray.

— — — Toluene KS-707 spray.

1:150°C/3h 2:150°C/24h 3:150°C/2h (Not specified values)

18

Paper release agentsSilicone releasing agents are also used in the

production of release paper. They are used in a

wide range of applications in everything from

adhesive tapes, films, emblems and labels, to

the packaging paper of latex and synthetic

rubbers.

Thin film coatingsThese agents cure to form thin film coatings via chemical reaction.

Heat-cure, UV-cure, and EB (Electron Beam)-cure

Releasability Heat and cold resistance Adhesion to substrates

Applications Grade AppearanceViscosity Active ingredient

25°C mPa·s %

KS-776A Translucent liquid 15000 30

General purpose KS-839L Translucent liquid 5000 30

KS-847T Translucent liquid 15000 30

KS-779H Translucent liquid 15000 30

Light-release applications KS-837 Translucent liquid 15000 30

KS-778 Translucent liquid 15000 30

Heavy-release applicationsKS-830 Translucent liquid 15000 30


Paintable applications KS-723A/B A/B translucent liquid 15000/250 25/45

Release-control applications KS-3800 Translucent liquid 2 30

For filmKS-774 Translucent liquid 15000 30




X-52-195 Creamy white liquid — 40

KM-768 Creamy white liquid — 30



KNS-3051 Colorless transparent liquid 400 100

KNS-320A Colorless transparent liquid 400 100




X-62-7622 Colorless transparent liquid 150 100

X-62-7052 White opaque liquid 35000 100

KNS-5300 Pale yellow transparent liquid 1500 100

UV-cure film applications KS-5508 Translucent liquid 1500 30

Non-solvent type,UV-cure applications

Non-solvent type, general purpose

Emulsion type, general purpose

Concentrated coating applications

19


SolventTypical curing Curing

Featurescatalyst method

Toluene CAT-PL-50T Addition The most standard type is suitable for tapes, but is also commonly used for labels.

Toluene CAT-PL-50T Addition Little time-dependence of release properties.

Toluene CAT-PL-50T Addition Easy release with acrylic solvent adhesives. High time-dependence of release properties.

Toluene CAT-PL-50T Addition Easiest release of all easy-release products.

Toluene CAT-PL-50T Addition Easy release with PE laminate paper. Good slickness.

Toluene CAT-PL-50T Addition Particularly good curability and pot life. The standard easy-release product.

Toluene CAT-PL-50T Addition Tighter release than KS776A, and no tape curling. Suitable for tapes.

Toluene CAT-PL-50T Addition Tighter release than KS776A. Not slick, and can be used to glue multiple layers.

Toluene CAT-PS-8S Condensation Has paintability not found in conventional release paper silicones.

Toluene CAT-PL-50T Addition Cannot be used alone, but is highly effective for release-control.

Toluene CAT-PL-4 Addition Good adhesion to aluminum foil, and to OPP, PET and PE films. Good residual adhesion. The standard product for film applications.

Toluene CAT-PL-50T Addition This type has greater curability and adhesion than KS774.

Toluene CAT-PL-50T Addition Low-viscosity version of KS778.

Toluene CAT-PL-50T Addition Low-viscosity version of KS847T. Improved resistance to exposure. Superior curability.

Water CAT-PM-10A Addition Easy-release applications. Suitable for common labels.

Water CAT-PM-10A Addition Medium-release applications. Suitable for tapes.

Water CAT-PM-20 Condensation Easy-release applications. Suitable for common labels. Particularly good low-speed releasability.

Water CAT-PM-20 Condensation Good residual adhesion.

— CAT-PL-56 Addition Easy release, for PE laminates.

— CAT-PL-56 Addition Easy-release applications. Suitable for common tapes and labels.

— CAT-PL-56 Addition Medium-release applications. Suitable for common tapes and labels.

— CAT-PL-56 Addition Tight-release applications. Little time-dependence.

— CAT-PL-56 Addition Tight-release applications. Release-control agent.

— CAT7603 U V Exposure to UV light yields a release paper with easy release and good residual adhesion.

— — U V Catalyst unnecessary. One-component type, partial coating is possible, mercapto-modified.

— — U V Catalyst unnecessary. One-component type, high hardness coating.

Toluene CAT-PL-5000 U V Medium-release applications. Suitable for substrates with low heat-resistance.

20

Defoaming agentsSilicone defoaming agents are available in oil,

solution, powder, and emulsion types. They all

have a high defoaming effect when added in

small amounts to all types of foaming liquids.

Defoaming effectDue to their lower surface tension, silicone defoaming agents have greater defoaming action than organic defoaming agents.

SafetySilicone defoaming agents are highly safe, especially those for food applications, which meet the standards for food additives laid out in Japan’s Food Sanitation Law.

Heat resistance and chemical resistanceSilicone defoaming agents have good resistance to heat and chemicals, so they are effective with all types of foams and can be used in conditions in which organic defoaming agents cannot.

Foam-inhibiting effectSilicone defoaming agents have longer-lasting effects than other defoaming agents, and are also effective in preventing foaming from occurring.

Chemical stabilityThey are chemically inactive, so they are extremely stable and do not attack or react with other substances.


CategoryOil type

Solvent typePow

der typeEm

ulsion typeSelf-em

ulsifying type

DM-FLUID Colorless transparent liquid



FA-630 Colorless transparent liquid

KS-602A Colorless transparent liquid

KS-603 White translucent liquid

FA-600 Colorless transparent liquid

KM-88P Slightly yellow powder

KM-91P Slightly yellow powder


KM-73A Creamy white liquid

KM-73E Creamy white liquid

KM-72S Creamy white liquid



KM-90 Grayish white translucent liquid


KM-68-1F Creamy white liquid

KS-508 Light brown translucent liquid

KS-530 Slightly yellow liquid

KS-531 Pale yellowish white liquid



Chemical industry, petroleum industry, food processing industry, fermentation industry, pharmaceutical industry, paints, coatings, inks, and the printing industry, pulp and paper industry, wastewater treatment, textile industry

21


Viscosity Specific gravity Active ingredientDiluent Features

25°C mPa·s 25°C %

100-100000 0.97 100 Toluene, xylene, etc. Silicone fluid.

500 1.01 100 Water, Alcohol, etc. Hydrophilic silicone fluid.

600 0.99 100 Toluene, Alcohol, etc. Deaeration of synthetic resins.

2000 1.28 100 MXHF, MIBK, etc. Fluorosilicone-based.

1700 0.87 50 Industrial gasoline, etc. Petroleum-based.

300 0.90 65 Toluene, Kerosene, etc. Deaeration of synthetic resins.

10 0.92 30 Acetone, methyl ethyl ketone, etc. Fluorosilicone-based.

— 0.58 (apparent specific gravity) 100 — Emphasis on water dispersibility.

— 0.60(apparent specific gravity) 100 — Emphasis on long-lasting effects.

Low 1.02 19 Water Wastewater, general industrial use.

Low 1.02 22.5 Water Wastewater, general industrial use.

Low 1.02 15.5 Water Wastewater, general industrial use.

Medium 1.02 35.5 Water Food industry applications (food additive in Japan).

Low 1.03 45 Water Good stability. Emphasis on fast-acting effects.

High 1.02 34 Water Heat-resistant, alkali-resistant.

High 1.04 53 Water Dye process applications, heat-resistant and alkali-resistant.

Medium 1.02 34 Water Heat-resistant, alkali-resistant.

Medium 1.03 55 Water Concentrated type.

2000 1.00 100 Water, alcohol Emphasis on paintability.

7000 1.03 100 Water, alcohol Emphasis on balance.

1800 1.04 100 Water, alcohol Emphasis on defoaming properties and good stability.

600 1.02 100 Water, alcohol Emphasis on ease-of-use and good stability.

6000 1.01 100 Water, alcohol Emphasis on long-lasting effects and defoaming properties.

22

Foam stabilizersSilicone foam stabilizers are products which

employ the unique interfacial characteristics of

silicones. They are essential ingredients in the

production of urethane foams.

Foam stability (for flexible foams) Flame-resistance (for flexible foams) Dimensional stability (for rigid foams) Cell-opening properties,

fine cells (for semi-hard foams)

Pressure sensitive adhesivesSilicone pressure sensitive adhesives exhibit

superior adhesion to a wide range of substrates,

regardless of the adherent material.

Excellent resistance to heat and cold Excellent re-release properties Adhere to silicone rubbers


F-628 Light brown transparent liquid

F-607A Light brown transparent liquidFor flexible urethane foams

F-606 Light brown transparent liquid

F-242TL Light brown transparent liquid

F-502 Pale yellow transparent liquid

For rigid urethane foams F-350S Pale yellow to light brown transparent liquid

F-506 Pale yellow to light brown transparent liquid

For cold-cure foamsF-121 Colorless to pale yellow transparent liquid

F-122 Colorless transparent liquid

For semi-rigid urethane foams F-114 Pale yellow to light brown transparent liquid

Applications Grade AppearanceViscosity

25°C mPa·s

KR-100 Colorless transparent 100 60

KR-101-10 Colorless transparent to slightly cloudy 100 60

KR-130 Colorless transparent 100 60For adhesive tapes



For mica tapesKR-109 Colorless transparent 3 60

KR-101 Colorless transparent to slightly cloudy 200 60

For protective films X-40-3102 Colorless transparent 3 50

KR-3006A/BT Colorless transparentA: 0.15Pa·s

10/10Primers B: 3mm2/s

X-40-3501 Colorless transparent 0.1 30

For bonding KR-105 Colorless transparent 0.8 70

Release agent X-70-201 Colorless transparent 4 15

Activeingredient

%

23


Viscosity Specific gravityFeatures

25°C mPa·s 25°C

800 1.03 Multipurpose product, primarily for slabs and molds (medium and high density).

1300 1.03 Multipurpose product, primarily for slabs and molds (low and medium density).

740 1.4 Produces foams with high air permeability. Good flame-resistance. Suitable for slabs and molds.

1000 1.03 Good foaming stability and flame-resistance. Wide range of catalyst additives. Suitable for slabs and molds.

400 1.04 General purpose. Good compatibility with PPG, and suitable for all applications including slabs, sprays, and froths.

70 1.06 Can be added to isocyanates. Good compatibility with PPG.

650 1.06 Can be used in isocyclo urethane. Good compatibility with PPG, and low thermal conductivity.

53 0.98 Highly active, and cells are fine and uniform. Also suitable for slabs.

4 0.92 Good cell-opening properties and wet-set properties.

1500 1.04 Good cell-opening properties. Fine cells.

Benzoyl peroxide Adhesive strength: polyimide film substrate 25µm Holding force: 25x25mm, 1kg, 1h Tack: probe tack (Not specified values)

Solvent Curing catalystCuring

Holding forceTack

Featuresmethod N/cm2 (g)

Toluene / xylene BPO, etc. Peroxide 8.0 (40) 0.5 8.1 (830) High tack, strong adhesion.

Toluene / xylene BPO, etc. Peroxide 6.8 (40) 0.1 4.9 (500) High shear strength, high heat-resistance.

Toluene BPO, etc. Peroxide 7.3 (40) 0.1 7.8 (800)High tack, reduced low-molecular-weight siloxane.

Toluene CAT-PL-50T Addition 8.5 (30) 0.02 10.2 (1040)

Toluene CAT-PL-50T Addition 8.0 (30) 0.2 12.2 (1240) High tack.

Toluene BPO, etc. Peroxide — — — Low viscosity, high tack.

Toluene / xylene BPO, etc. Peroxide — — — High viscosity, low tack.

Toluene CAT-PL-50T Addition 0.2 (30) 0.01 0.98 (100) Slight adhesion, anti-slip properties.

Toluene CAT-PS-8S Condensation — — —For peroxide-cure adhesives and addition-cure adhesives.

Industrial gasoline CAT-PL-50T Addition — — — For addition-cure adhesives.

Toluene / xylene T-12 Condensation — — — For bonding of silicone rubbers.

FR thinner CAT-PL-50T Addition — — — For silicone adhesive separators.

High adhesion, light release from silicone adhesive separators.

Adhesive strength(glue thickness)N/25mm (µm)

24

Silicone resinsSilicone resins are composed of highly branched

3-dimensional polymers. They form coatings

with outstanding heat resistance, weather

resistance, electrical insulative properties, and

water repellency. They generally dissolve in

organic solvents, and are used in diverse

applications to improve durability, safety, and

reliability.

Heat resistanceSiloxane bonds (Si-O-Si) form the backbone of the molecular structures of silicone resins. Siloxane bonds have high bonding energy and the temperature of thermal decomposition is high, so these resins have excellent heat resistance. There is typically no decomposition, degradation, or discoloration even in high-temperature conditions of 250°C or more.

Electrical insulative propertiesSilicone resins exhibit excellent electrical properties over a wide temperature range. In particular, even at high temperatures there is little decline in electrical insulative properties, and good resistance to arcing.

Weather resistanceThey exhibit outstanding weather resistance, with little degradation caused by UV rays or other elements. Coatings exhibit little yellowing, chalking, or loss of gloss, and they maintain stable coating properties over long periods.

Water repellencyDue to the orientation of the methyl groups in the molecules, the surface of the cured material has excellent water repellency.

High hardnessSilicone resins are highly branched 3-dimensional polymers, and the backbone structure of the cured material is similar to that of glass, so these materials can be used to modify surfaces to make them inorganic substances.

Type / Applications Grade Appearance

KR-220L Solid flakes

KR-240 Colorless transparent liquid

KR-242A Colorless transparent liquid

KR-271Colorless to pale yellow

Straight silicone resin transparent liquid


transparent liquid


transparent liquid

KR-216Colorless to pale yellowtransparent solid flakes

KC-89S Colorless transparent liquid




transparent liquid


transparent liquid


transparent liquid

Silicone polyester resinKR-5230 Pale yellow transparent liquid

KR-5235 Pale yellow transparent liquid

Silicone alkyd resin KR-5206 Pale yellow transparent liquid

ES-1001N Pale yellow to tan transparent liquid

Silicone epoxy resinES-1002T Pale yellow transparent liquid

ES-1023 Pale yellow transparent liquid

Silicone acrylic resin KE-9706 Colorless transparent liquid



Silicone coating agentKR-255 Pale yellow transparent liquid


KR-114A Colorless transparent liquid



KR-165 Translucent liquid

KR-166 Translucent liquid

KR-169 White opaque liquid

KR-2038 Yellowish white opaque liquid

KR-101-10 Pale yellow transparent liquidAdhesive applications


Bonding applications KR-105 Colorless transparent liquid

Silicone resin for modification

For sleeve and cloth processing

25

Viscosity Non-volatilematter content Solvent Curing agent Features

25°C mPa·s 105°C/3h %

Softening point 70°C — — Solid type. Flame-resistant and low smoking.

6 25 Xylene, butanol Fast curing. Particularly good resistance to solvents.

12 50 Toluene, IPA Heat-resistance. Flame-resistance.

200 50 Xylene Forms relatively flexible films.

150 50 Xylene Good blance between drying properties and film characteristics.

25 60 Xylene Forms relatively hard films. Good drying properties.

Softening point— — Ideal for cooking with polyesters, alkyds, epoxies, etc.

75°C

3 — — Methyl silicone which contains methoxy groups.

251 — — — Methyl silicone which contains methoxy groups.

1001 — — — Imparts resistance to heat, weather, and chemicals.

15 — —

8 — — Ideal for cooking with polyesters, alkyds, epoxies, etc.

35 — —

300 60 2 Flexibility.

180 60 2 3 4 Soil resistant. Releasaility.

400 50 Xylene For room-temperature drying.

350 45 Tluene Typical silicone epoxy varnish.

350 60 Xylene KC224B Curing agent for eoxy can also be used.

250 45Xylene,

Low acid values.Diaceton alcohol

200 50 — Little discoloration or loss of luster at high temperatures (up to 250°C).

1.21 — — — High hardness. Non-solvent alcohol-release coating agent.

15 20 Tluene Forms the thinnest, hard, transparent films of all varnishes used for moisture-proofing of surfaces.

100 50 Toluene, Xylene Typical varnish for moisture-proofing.

250 70 Toluene, Xylene Unnecessary Forms soft, solvent-resistant films.

1000 50 Ligroin Soft, waxy film whch absorbs strain. Film can be removed with a solvent.

150 50 Xylene Low foaming during curing, and suitable for impregnation of large equpment.

9000 30 Tluene C-2706 The most flexible of all varnishes for sleeves. Good heat resistance.

7000 30 Xylene D-168 Typical varnish for sleeves. Self-extinguishing. Good transparency.

7000 30 Xylene D-168 Self-extinguishing. Excellent film strength.

20000 30 Xylene D-168 Self-extinguishing. Good flexibility and heat resistance.

32000 100 — D-2016 Non-solvent type. Self-extinguishing. Good heat resistance.

100000 60 Toluene, XyleneB.P.O5

Good balance between adhesie strength and cohesive force. Suitable for fireproof electrical wire.

100000 60 Tluene Good adhesion and heat resistance. Suitable for heat-resistant adhesive tape.

700 70 Toluene, Xylene T-12 For bonding of plastic or metal to silicone rubber, or silicone rubber to silicone rubber.

1:mm2/s 2:3-propylene Glycol monomethyl Ether Acetate 3:3-Methoxy-Methyl-1-Butyl Acetate 4:Buthanol 5:Benzoyl peroxide (Not specified values)

Generallyunnecessary



Titanate compounds,in condensationreactions with

alcoholic hydroxylgroups

26

Paint additivesSilicone paint additives have very low surface

tension. This property makes them very effective

when added in small amounts to paints. Silicone

paint additives are highly effective for surface

modification, and for preventing various paint

film flaws.

SlicknessSilicone paint additives function to lower the friction coefficient of the paint film surface, making it slicker.

Forms hammertone finishesSilicone paint additives are used to create hammertone finishes by the formation of cells due to a convection effect in the paint film.

Prevent floating and floodingSilicone is dispersed in the interior and surface of the paint film, thus preventing the convection effect during paint drying.

Prevent blockingDimethyl silicone fluid contains various functional groups that react with paint resins, thus improving durability and compatibility with paints and providing an antiblocking effect.

Defoaming effectSilicone paint additives function to break down foam in paints.

Improved resistance to moisture and salt waterThe molecules contain functional groups which bond with metals and inorganic matter, and contain functional groups which bond with the paint vehicle. This improves the adhesiveness of the paint film and improves its resistance to salt water.


KP-301 Colorless transparent liquid

Reduce friction coefficient KP-302 Colorless transparent liquid


Form hammertone finishesKP-310 Colorless transparent liquid

KP-310B Colorless transparent liquid

KP-321 Colorless to pale yellow transparent liquid


Improve levelingKP-324 Colorless to pale yellow transparent liquid



KP-341 Pale yellow to light brown liquid

KP-360A Light brown transparent liquid

KP-361 Light brown transparent liquid


KP-355 White, waxy consistency



Prevent blocking of plywood KP-358 Colorless transparent liquid







KP-330 Pale yellow transparent liquid

Defoaming KP-331 Colorless transparent liquid

KS-508 Yellowish white liquid




Improve adhesion, moisture resistance, and salt water resistance

27

Viscosity Specific gravitySolvent

Active ingredient Standard additionFeatures

25°C mm2/s 25°C % quantity wt%

1.0 0.88 Toluene 10 0.05-1.0 Good compatibility and recoating properties.

1.5 0.88 Xylene 10 0.05-1.0 General purpose.

1.7 0.88 Xylene 10 0.05-1.0 Product formulated as a measure against platinum catalyst poisoning.

70 0.87 Toluene 10 0.05-1.0

150 0.87 Xylene 10 0.1-1.0Forms vivid hammertone finishes.

2.0 0.87 Toluene 10 0.1-1.0 Good slickness and recoating properties.

160 1.03 — 100 0.001-0.5 Good anti-mottling and antiblocking effect.

0.9 0.89 Toluene 10 0.01-1.0 Good recoating properties.

8.0 1.01 Toluene 50 0.01-1.0 Good anti-mottling effect. Has defoaming effect.

1.5 0.87 Toluene 10 0.01-1.0 Good anti-mottling effect and prevents orange peel.

750 1.03 — 100 0.001-0.5 Good anti-mottling effect and prevents orange peel. Good recoating properties.

20 0.89 Isopropyl alcohol 50 0.1-1.0 General purpose.

30 0.89 Isopropyl alcohol 50 0.1-1.0 Good slickness.

1.5 0.93 Toluene 50 0.5-2.0 Good compatibility and slickness.

— — — 100 0.1-1.0 Waxy consistency, good compatibility.

45 0.97 — 100 0.1-1.0 General purpose.

40 0.96 — 100 0.1-0.5 Good compatibility and durability.

55 0.98 — 100 0.2-0.5 Good durability.

100 0.97 — 100 0.1-1.0 Good slickness, compatibility, and durability.

80 0.98 — 100 0.01-0.5 Good characteristics for carton coating.

2.5 0.88 Toluene 20 0.01-1.0 For cellulose paints.

80 0.97 — 100 0.1-1.0 Good slickness and durability.

70 0.97 — 100 1.0-2.0 Good slickness.

50 0.97 — 100 0.1-1.0 Product formulated as a measure against platinum catalyst poisoning.

2.5 0.88 Toluene 10 0.01-0.05 Good recoating properties.

1.5 0.87 Toluene 10 0.01-0.05 General purpose.

2000 1.00 — 100 0.001-0.01 Excellent paintability.

6.0 0.91 n-butanol 50 1.0-4.0 Contains amino groups.

2.0 0.91 n-butanol 50 1.0-4.0 Contains mercapto groups.

25 0.92 n-butanol 50 1.0-4.0 Contains epoxy groups.


28

One-componentRTV rubbersWith one-component RTV silicone rubber

compounds, work can begin as soon as the

product is ejected from its tube or cartridge.

These products become elastic rubbers after

curing, and adhere well to almost all materials

as they cure. These properties make one-

component RTV silicone rubbers suitable for a

wide range of applications.

Electrical propertiesThey have outstanding electrical properties, in terms of volume resistivity and ability to withstand high voltage.

Heat and cold resistanceThey can be used over a wide temperature range (-40°C to +180°C).

Shock resistanceThe cured rubbers have excellent rubber elasticity and absorb vibration and shock.

Weather resistanceOne-component RTV rubbers exhibit almost no deterioration when exposed to the outdoor elements for long periods, because they have outstanding resistance to UV rays, ozone, and moisture.

WorkabilityThese products are easy to use, because they can be ejected from their tubes (or other containers) and used immediately.

Coating KE-3423 Condensation (acetone)KE-347 Condensation (acetone)KE-3475 Condensation (acetone)KE-3495 Condensation (acetone)

Sealing, coating KE-4895 Condensation (alcohol)KE-4896 Condensation (alcohol)KE-1830 AdditionKE-1884 AdditionKE-3479 Condensation (acetone)KE-348 Condensation (acetone)KE-4897 Condensation (alcohol)KE-4898 Condensation (alcohol)

Sealing KE-1820 AdditionKE-1825 AdditionKE-1831 AdditionKE-1833 AdditionX-32-1947 AdditionKE-1056 Addition

PottingKE-1151 Addition

Coating, potting KE1842 AdditionSealing, coating, potting X-32-1964 Addition

KE-3424G Condensation (acetone)Sealing, coating

KE-3494 Condensation (acetone)Flame-resistance KE-3490 Condensation (acetone)

Sealing KE-40RTV Condensation (oxime)KE-4890 Condensation (alcohol)

Sealing, coating KE-3497 Condensation (acetone)MIL specifications

Sealing KE-3498 Condensation (acetone)KE-3493 Condensation (acetone)

Heat-dissipating sealing KE-3466 Condensation (acetone)Thermal KE-3467 Condensation (acetone)conduction KE-1862 Addition

X-32-2020 AdditionKE-1867 Addition

Electrical KE-3491 Condensation (acetone)conduction

SealingKE-3492 Condensation (acetone)

Ultra heat- KE-34174 Condensation (acetone)resistance

SealingKE-34184 Condensation (acetone)FE-123 Condensation (acetic acid)

SealingFE-61 Addition

Potting FE-57 AdditionSealing, potting X-32-1619 Addition

KE-3427 Condensation (acetone)Plastic bonding Sealing

KE-3428 Condensation (acetone)KE-41 Condensation (acetic acid)KE-42 Condensation (acetic acid)

SealingKE-44 Condensation (oxime)KE-45 Condensation (oxime)KE-441 Condensation (oxime)

Sealing, coating KE-445 Condensation (oxime)KE-45S Condensation (oxime)

Oil andsolventresistance

Curing method Applications Intended use Grade

(Byproduct gas)

Generalpurposeindustrial

General electrical applications

Heat-dissipating sealing,potting

29

0.6 5 0.98 20 140 0.5 0.3 (aluminum) Reduced low-molecular-weight siloxane55 4 1.04 30 300 2.5 1.0 (aluminum) Medium viscosity2.5 5 1.04 25 200 1.0 0.4 (aluminum) Low viscosity4.5 12 1.03 30 180 1.1 0.3 (aluminum) Low viscosity, reduced low-molecular-weight siloxane5 11 1.04 40 140 1.5 0.5 (aluminum) Low viscosity, reduced low-molecular-weight siloxane.50 12 1.04 38 170 1.7 0.8 (aluminum) Medium viscosity, reduced low-molecular-weight siloxane.110 — 1.27 40 300 4.3 2.0 (aluminum) High viscosity.55 — 1.22 35 230 3.5 1.6 (aluminum) Reduced low-molecular-weight siloxane, low-temperature curing.75 2 1.06 30 350 2.5 1.5 (aluminum) High viscosity.— 1 1.05 30 400 2.0 1.2 (aluminum) Paste consistency.100 12 1.04 40 200 1.8 0.8 (aluminum) High viscosity, reduced low-molecular-weight siloxane.— 6 1.04 40 360 2.2 0.8 (aluminum) Paste consistency, reduced low-molecular-weight siloxane.— — 1.08 45 600 5.4 2.0 (aluminum) High viscosity.— — 1.06 29 600 3.3 1.5 (aluminum) Paste.200 — 1.28 30 400 3.9 1.0 (aluminum) Flame-resistant UL V-0 certified product.140 — 1.34 33 350 3.4 1.8 (aluminum) Good adhesion to PPS, heat resistant.100 — 1.14 36 230 2.9 2.0 (aluminum) Reduced low-molecular-weight siloxane, low-temperature curing.

8001 — 0.993 902 — — — Cold-resistant transparent gel.25001 — 1.00 902 — — — Cold-resistant thixotropic gel.

4.0 — 1.00 10 200 0.4 0.2 (aluminum) Low viscosity, low hardness.12 — 1.03 29 160 2.9 0.8 (aluminum) Reduced low-molecular-weight siloxane, low-temperature curing.20 6 1.32 50 180 4.0 0.4 (aluminum) Reduced low-molecular-weight siloxane, UL certified product, electrode coating material.50 8 1.40 35 250 2.5 1.5 (aluminum) UL certified product, reduced low-molecular-weight siloxane.— 3 1.18 43 350 2.5 1.5 (aluminum) UL certified product, reduced low-molecular-weight siloxane.— 12 1.58 60 200 2.9 1.0 (aluminum) UL certified product.— 6 1.45 50 200 2.0 1.3 (aluminum) UL certified product, reduced low-molecular-weight siloxane.40 9 1.07 35 250 3.0 0.7 (aluminum) Medium viscosity, reduced low-molecular-weight siloxane.— 1 1.07 45 480 3.9 1.5 (aluminum) Paste consistency, reduced low-molecular-weight siloxane.— 1 1.46 73 70 2.0 0.8 (aluminum) Reduced low-molecular-weight siloxane.50 7 2.80 88 30 3.1 0.5 (aluminium) Reduced low-molecular-weight siloxane, UL certified product.100 4 2.90 91 30 3.6 0.5 (aluminium) Reduced low-molecular-weight siloxane, UL certified product.60 — 2.22 72 80 6.0 1.3 (aluminum) Medium viscosity.

100 — 2.82 78 40 2.5 1.0 (aluminum) Reduced low-molecular-weight siloxane.60 — 2.92 75 70 1.2 1.0 (aluminum) Reduced low-molecular-weight siloxane, UL certified product.— 5 1.09 50 350 3.0 1.0 (aluminum) Reduced low-molecular-weight siloxane, electrically conductive.— 2 1.88 85 30 2.0 1.0 (aluminum) Reduced low-molecular-weight siloxane, electrically conductive.45 12 1.05 35 200 1.4 0.8 (aluminum) Reduced low-molecular-weight siloxane, cannot be used for electrical insulation.— 5 1.09 45 200 2.0 1.4 (aluminum) Reduced low-molecular-weight siloxane, cannot be used for electrical insulation.— 5 1.34 40 250 2.5 1.0 (aluminum) Oil- and solvent-resistant (fluorosilicone).60 — 1.43 25 170 1.7 0.6 (aluminum) Oil- and solvent-resistant (fluorosilicone).

20001 — 1.283 602 — — — Oil- and solvent-resistant gel.20 — 1.46 25 130 1.1 0.2 (aluminum) Oil- and solvent-resistant (fluorosilicone).55 6 1.01 24 260 0.4 0.4 (aluminium) Adheres to plastics.— 3 1.05 32 320 1.5 1.3 (aluminium) Adheres to plastics.100 6 1.04 30 250 2.5 1.0 (aluminum) High viscosity.— 5 1.05 28 400 2.0 1.0 (aluminum) Paste consistency.70 40 1.04 25 300 2.0 1.2 (aluminum) High viscosity.— 6 1.05 30 350 2.0 1.0 (aluminum) Paste consistency.15 60 1.04 20 280 1.7 1.0 (aluminum) Low viscosity.5 20 1.05 25 200 2.0 0.3 (aluminum) Low viscosity.

0.6 60 1.05 20 350 2.0 — Diluted with solvent.

Before curing After curing

Viscosity Tack-free time Density Hardness Elongation at Tensile strength Shear strength FeaturesPa·s min 23°C g/cm3 Durometer A break % MPa MPa

1:mPa·s 2:Needle penetration 3:at 25°C 4:Cannot be used for electrical insulation. (Not specified values)

30

Two-component RTV rubbers(for electric and electronic applications)

A two-component RTV silicone rubber

compounds cures by adding a specified amount

of a curing agent to the base compound. Like

one-component RTV rubbers, two-component

RTV rubbers have outstanding electrical

properties and resistance to heat and cold, while

also offering improved deep-section curability

and storage stability.

Properties identical to those of one-component RTV rubbersElectrical properties, heat and cold resistance, shock resistance, weather resistance, curing characteristics, etc.

Deep-section curabilityThe curing reaction proceeds uniformly at the surface and internally, regardless of rubber thickness.

Adjustability of cure speedCure time can be adjusted by changing the type or quantity of curing agent, or by heating.

StorabilityThe base compound and curing agent are stored separately, so the product will not become unusable due to curing during storage. Two-component RTV rubbers can be stored for long periods.

Curing methodApplications Intended use Grade

(byproduct gas)

Sealing KE-1800T (A/B) Addition

KE-66 Condensation (Alcohol)

KE-1031 (A/B) Addition

Sealing KE-200 Condensation (acetone)

Potting KE-118 Condensation (Alcohol)

KE-103 Addition

Coating KE-108 Condensation (Alcohol)

KE-119 Condensation (Alcohol)

CoatingKE-109 (A/B) Addition

Potting

KE-1051J (A/B) Addition

Potting KE-1052 (A/B) Addition

KE-106 Addition

KE-1800 (A/B/C) Addition (3-component)

Sealing KE-1801 (A/B/C) Addition (3-component)

KE-1802 (A/B/C) Addition (3-component)

SealingKE-1281 (A/B) Addition

Potting

KE-1204 (A/B) Addition

Potting

KE-1204 (AL/BL) Addition

KE-513 (A/B) Condensation (hydrogen)

Foaming Coating

KE-521 (A/B) Addition (hydrogen)

Heat-dissipating sealing

Heat-dissipating pottingKE-1861 (A/B) Addition

SealingCoatingPotting

Flame-resistance

Thermal conduction

General electrical applications

31

Before curing After curing

Appearance Viscosity Workable Standard cure Curing Blend Hardness Shear strength Elongation at Shear strengthPa·s time 23°C/h time h/°C agent ratio Durometer A MPa break % MPa

1:mPa·s 2:Needle penetration (Not specified values)

Translucent paste A:350/B:200 6.0 1/120 — 100/100 1.08 26 5.5 600 1.5 (PBT)

Grayish white liquid 5 1.5 72/23 CAT-RC 100/2 1.25 40 1.5 140 Self-adhesive

Colorless transparent liquid A:1/B:0.7 4.0 2/80 — 100/100 0.97 20 0.4 150 0.1 (aluminum) Transparent, adhesive.

Pale yellow translucent liquid 2.8 0.5 72/23 CX200 100/10 1.01 25 0.4 100

Grayish white liquid 2 0.3 72/23 CAT-118 Blue 100/5 1.14 45 1.5 90 — Self-adhesive

Colorless transparent liquid 1 3.0 72/23 CAT-103 100/5 0.97 24 0.2 100 —

Colorless transparent liquid 0.7 6.0 72/23 CAT-108 100/5 0.98 31 — — —

Reddish brown liquid 17 2.0 72/23 CAT-RP 100/10 1.47 68 5.0 100 — High hardness.

Colorless transparent liquid A:1/B:1 8.0 1/100 — 100/100 1.02 25 1.5 150 0.2 (aluminum) Transparent, adhesive.

Colorless transparent liquid A:900/B:7001 2.0 24/23 — 100/100 0.97 652 — — — Transparent gel.

Colorless transparent liquid A:1000/B:8001 4.0 24/23 — 100/100 0.97 652 — — — Transparent gel.

Colorless transparent liquid 3.5 2.0 0.5/150 CAT-RG 100/10 1.02 56 8.0 100 —

White paste A:350/B:14 4.0 1/120 KE1800B (C) 100/10/2 1.10 28 5.0 600

White paste A:350/B:14 4.0 1/120 KE1800B (C) 100/10/2 1.10 28 5.0 600

Black paste A:300/B:14 6.0 1/120 KE1800B (C) 100/10/2 1.10 30 5.0 600

A:black liquidA:2/B:1 7.0 1/100 — 100/100 1.37 20 1.0 140 0.3 (aluminum)

B:grayish white liquid

A:reddish brown liquidA:6/B:4 8.0 0.25/100 — 100/100 1.54 70 3.5 70 —


A:reddish brown liquidA:4/B:2 8.0 0.25/100 — 100/100 1.52 65 3.0 80 —


A:white liquidA:4/B:6 0.20 24/23 — 100/10 0.5 10 0.2 110 — Triple-volume foaming.

B:black liquid

A:black liquidA:8/B:3 0.15 24/23 — 100/100 0.5 14 0.2 120 — Triple-volume foaming.

B:white liquid

Grayish white liquid A:50/B:50 5.0 1/120 — 100/100 2.22 75 6.4 80 1.0 (aluminum) Adhesive, heat-dissipating.

Transparent, room-temperature curing.Transparent, room-temperature curing.

Transparent, high strength.UL certified product, adhesive, high strength.Adhesive, high strength.UL certified product, adhesive, high strength.

Adhesive, low hardness, UL certified product.

UL certified product, reduced low-molecular-weight siloxane.

UL certified product, reduced low-molecular-weight siloxane.

1.7 (glass)1.7 (polycarbonate)1.7 (glass)1.7 (polycarbonate)1.7 (glass)1.7 (polycarbonate)

0.5 (copper)0.5 (Bakelite)

0.6 (copper)0.6 (Bakelite)

Translucent adhesive, high strength.

Reduced low-molecular-weight siloxane, fast cure.

Density23°Cg/cm3

Features

32

Two-component RTV rubbers (for moldmaking)

Two-component RTV silicone rubber compounds

for moldmaking are suitable for mold masters

for molding with polyester resin, epoxy resin,

urethane foam, wax, plaster, and low-melt-point

metal alloys. These RTV rubber compounds

allow accurate reproduction of the shape of the

original. They are easy to use and are thus used

widely in industrial applications, as well as by

hobbyists looking to create the perfect replica.

WorkabilityThe base compound and curing agent are mixed and then poured into the mold to create a silicone rubber mold quickly. Workable time and cure time can be adjusted.

Mold-releasabilityThe cured rubber releases easily from the mold, so mold-release agents (soapy water, wax, etc.) are unnecessary.

Dimensional stabilityThese rubbers offer good dimensional stability, with little shrinkage.

FlowabilityThey have excellent flowability, so the original form is reproduced accurately. This includes even intricate shapes and details such as fingerprints and wood grain.

Heat and chemical resistanceThese rubbers have outstanding resistance to heat and chemicals.

Deep-section curabilityMoldmaking RTV silicone rubber compound cures uniformly throughout the mold, regardless of thickness.

Non-exothermicNo heat is generated during curing, meaning no adverse effects to the original.

Generally, cure speed can be increased significantly by adding CAT-RS (at 0.1-0.2%) as a cure accelerant to condensation-cure products in addition to the curing agent, or by heating addition-cure products. Other trial products are available, so if the products listed above cause problems in moldmaking, please contact Shin-Etsu for further details.

Linear shrinkage values are the shrinkage values of a 2 mm sheet, not shrinkage values of an actual rubber mold.Shrinkage values in condensation-cure products are somewhat higher over longer periods such as one week, one month, etc.

KE-12 Condensation White 10 30 8/23

KE-14 Condensation Grayish white 15 30 24/23


KE-108 Condensation Colorless transparent 0.7 360 24/23


A:blueKE-1222 (A/B) Addition

B:flesh colorputty 5 —

KE-1241 Addition Grayish white 30 30 24/23

KE-113 Condensation Reddish brown 7 200 24/23






KE-1417 Condensation

Grayish white 45 90 24/23

Grayish white 45 90 24/23

KE-1300T Addition Translucent 100 90 24/23

KE-1310ST Addition Translucent 80 80 24/23

KE1314 Addition Translucent 80 90 24/23

KE-1600 Addition Grayish white 170 150 24/23

A:80KE-1603 (A/B) Addition Transparent

B:5090 24/23

KE-1606 Addition Transparent 50 200 24/23

Before curing

ApplicationsGeneral purpose

For welder m

oldingHigh-strength condensation-cure type

High-strength addition-cure type

GradeCuringmethod Appearance Viscosity Workable time1 Standard cure time2

Pa·s 23°C (min) h/°C

33

1:Values shown are the lengths of time during which products maintain flowability at 23°C, but the viscosity of RTV rubber compounds increases with time, so work should be performed in the shortest time possible. 2:Standard cure time varies according to the size of the curing material.

3:We recommend using CAT-RM when making thick matrices. CAT-RT does not have deep-section curability.4:Three-component type with CAT-RM and CAT-24 added. 5:CLA-4, a fast-acting curing agent (8 hours at 23°C), is also available.6:By using CAT-1310L with KE-1310ST, or using CAT-1314L with KE-1314, work life increases to 300 minutes (23°C).7:After adding the curing agent and allowing to set for 24 hours at 23°C, an aftercure process (heating to 150°C for 30 min) can be used

to increase hardness to 70, and increase tensile strength to 7.6 MPa.

CAT-RM 0.5% No 72/23 White 1.30 41 2.5 180 3 0.5 -60 to +250 Yes Cure time can be adjusted.

CLC-229 5.0% No 72/23 Grayish white 1.16 30 3.5 280 3 0.5 -60 to +250 Yes Multipurpose.

CAT-RM 0.5%3

or CAT-RT 0.5%No 72/23 Grayish white 1.17 50 2.5 150 3 0.3 -60 to +250 Yes Cure time can be adjusted.

CAT-108 5.0% No 72/23 Colorless transparent 0.98 31 — — — 0.5 -60 to +250 Yes Transparent.

CAT-RM 0.5% No 72/23 Grayish white 1.18 50 3.0 160 3 0.3 -60 to +250 Yes Curing time adjustable.

Fast cure.A:B=1:1 Yes 0.5 Brown 1.72 70 — — — 0.1 -60 to +250 Yes

Putty (addition-cure).

CLA-9 10.0% Yes 2/60 Grayish white 1.20 32 (Asker C) 2.7 500 — 0.1 -60 to +250 Yes Printable on

CAT-RM 0.5% No 72/23 Reddish brown 1.50 70 5.5 120 3 0.8 -60 to +250 Yes curved surface.

CAT-RM 0.5%4 Three-componentor CAT-24 4.5%

No 72/23 Light blue 1.32 83 6.5 70 3 1.0 -60 to +250 Yestype.

CAT-RM 0.5%4 Three-componentor CAT-24 4.5%

No 72/23 Light blue 1.40 88 7.5 70 3 1.0 -60 to +250 Yestype.

Standard type.CX-32-1714 5.0% No 72/23 Grayish white 1.14 30 4.5 300 15 0.3 -60 to +250 Yes

High strength.

Hardness: 20°CX-32-1714 5.0% No 72/23 Grayish white 1.19 22 4.5 400 18 0.3 -60 to +250 Yes

High strength.

Hardness:15°CX-32-1714 5.0% No 72/23 Grayish white 1.19 15 3.0 450 16 0.3 -60 to +250 Yes

High strength.

CAT-1417-30 5.0% No 72/23 Light blue 1.13 30 3.6 300 23 0.3 -60 to +250 Yes

CAT-1417-40 5.0% No 72/23 Reddish brown 1.13 40 5.0 260 25 0.3 -60 to +250 Yes

CAT-1300 10.0%5 Yes 2/60 Translucent 1.10 40 5.0 300 17 0.1 -60 to +250 Yes

For vacuum molding.CAT-1310S 10.0%6 Yes 2/60 Translucent 1.08 40 6.0 350 25 0.1 -60 to +250 Yes

Multipurpose.

For vacuum molding.CAT-1314S 10.0%6 Yes 2/60 Translucent 1.08 44 5.8 300 25 0.1 -60 to +250 Yes

Oil bleed.

CAT-1600 10.0% Yes 24/23 Light blue 1.27 457 6.57 200 15 0.1 -60 to +250 Yes High hardness.7

A:B=1:1 Yes 24/23 Transparent 1.03 28 4.0 450 12 0.1 -60 to +250 Yes High transparency.

CAT-RG 10.0% Yes 24/23 Transparent 1.03 30 4.5 350 12 0.1 -60 to +250 Yes High transparency.

After curing


Improves urethane resistance.Hardness: 30°, high strength.

Improves urethane resistance.Hardness: 40°, high strength.

Density23°Cg/cm3

Usagetemperaturerange °C

Standard quantity Curing Test sample Appearance Hardness Shear strength Elongation at Tear strength Linear Deep-section Featuresof curing agent inhibition creation time h/°C Durometer A MPa break % kN/m shrinkage % curability

34

SealantsSilicone sealants are elastic sealing materials

that offer outstanding durability, weather

resistance, and adhesion. As buildings and

structures move, such as during earthquakes

and typhoons, silicone sealants move flexibly

with them. They are therefore commonly used

in sealing applications in high-rise buildings

and housing, civil engineering, clean rooms,

and in the joints of aquariums.

Durability and weather resistanceOutstanding durability and weather resistance, with almost no degradation from UV rays or ozone.

AdhesionWith the use of an appropriate primer, silicone sealants offer high adhesion to almost all materials.

Moisture resistanceOur silicone sealants have superior durability, weather resistance, and adhesiveness, so they form airtight, moisture-proof seals that last for years.

Resistance to salt damageSilicone sealants are highly resistant to salt damage, so they can be used in buildings and factories in coastal areas, offering high durability.

Construction coating agentsSilicone coating agents are one-component

coating materials which were developed for

water-proofing concrete, mortar, and metal

surfaces. They adhere well to the substrate and

cure to form a silicone rubber film which offers

outstanding durability and weather resistance.

Heat and cold resistanceThey maintain rubber elasticity over a wide temperature range (-40°C to +150°C).

DurabilityThe properties of silicone coatings show almost no effects from exposure to the elements, including UV rays and ozone.

Applications GradeAppearance

Before curing

M COAT-56 Paste form emulsion

S COAT-57 Paste form solution

Topcoat for M Coat 56, S Coat 57 S COAT-58 Colorless transparent solution

General purpose SEALANT-N Oxime Paste

Anti-mold SEALANT-4588 Oxime Paste

Antibacterial, anti-mold SEALANT-4515 Oxime Paste

For fire doors SEALANT-40 Oxime Paste

General purpose, SEALANT-456 Oxime Paste

CW applications

PURE SEALANT Oxime Paste

For clean rooms

PURE SEALANT S-type Acetone Paste

For plastics SEALANT-72 Alcohol Paste

Ultra heat-resistant KE-3418 Acetone Paste

For glass SEALANT-A Acetic acid Paste

For high-transparencySEALANT-420 Acetic acid Paste

seals

General purpose SEALANT-70 AminoxyBase resin: paste

Curing agent: liquid

For horizontal joints SEALANT-701 AminoxyBase resin: Fluid pasteCuring agent: Grayish white paste

For fire-resistant joints SEALANT-74 AminoxyBase resin: paste

Grayish white paste

Oil-based Base resin: pasteSEALANT-79 Aminoxy Curing agent: paste

caulking repairs Additive: Colorless transparent liquid

Base resin: pasteFor large aquariums MARINE SEALANT GX Aminoxy Curing agent: Grayish white paste

Curing agent: Gray paste

Applications GradeCuring

Appearancemethod

CategoryOne-com

ponentTw

o-component

Three-component

Waterproofing, salt damage prevention, prevention of bill posting

Rustproofing, corrosion prevention, waterproofing, salt damage prevention

35

Viscosity Density Active Tack-free time Specific gravity Hardness Tensile strength Elongation at FeaturesPa·s 23°C g/cm3 ingredient %

Solvent min

Appearance23°C Durometer A MPa break %

After curing

5 1.15 53 Water 120 Rubber quality 1.36 45 1.6 600 Water-based type

5 1.25 75 Xylene 20 Rubber quality 1.51 60 2.9 230 Solution type

0.007 0.96 50 Toluene 3 Vanish quality 1.15 93 6.0 130 Solution type


1.04 20 1.4 540 General purpose, high modulus, non-corrosive.

1.03 20 1.4 580 Anti-mold, high modulus.

1.05 28 2.0 390 Antimicrobial, anti-mold, high modulus.

1.56 60 3.4 300 High modulus (specified for use with Category B aluminum fire doors).

1.26 25 1.5 600 Medium modulus, good elongation, high adhesive strength.

1.05 44 2.7 340 Low emission of low-molecular-weight siloxane, high adhesive strength.

1.05 37 2.6 360 Good results in wafer absorption testing.

1.35 30 2.0 600 Medium modulus, non-corrosive. For plastics.

1.09 40 2.5 300 Heat-resistant sealant (continuous use at 250°C possible).

1.03 20 1.6 500 General purpose, high modulus, high adhesive strength, fast cure.

1.05 25 2.9 400 High modulus, high adhesive strength, highly transparent.

1.26 13 1.1 1250 General purpose, low modulus.

1.30 17 1.5 1300 Low modulus, has fluidity.

1.70 22 1.8 860 Low modulus, flame-resistant.

1.30 — 0.018 900 Sealing material with plasticity (surface hardens with mastic interior).

1.27 16 1.6 1500 Low modulus, superior deep-section curability.

Density Hardness Tensile strength Elongation at breakFeatures

23°C g/cm3 Durometer A MPa %


36

Rubber compoundsSilicone rubber compounds have properties of

both inorganic and organic materials. They are

composed of unique silicone gums and high-

purity silica. Silicone rubber compounds offer

many outstanding features not found in other

organic rubbers.

Heat and cold resistanceAt 150°C there is almost no change in physical properties, and they maintain elasticity at temperatures at which typical organic rubbers become brittle.

Weather resistanceSilicone rubber compounds can be exposed to UV rays, wind, and rain for long periods with almost no change in physical properties.

Oil resistance, solvent resistance,chemical resistanceSilicone rubber compounds have superior oil resistance at high temperatures. They also have outstanding resistance to solvents and other chemicals, and are nearly impervious to polar organic compounds and dilute acids and alkalis.

Electrically insulativeThey are stable over a wide range of temperatures and frequencies. And even when immersed in water, there is almost no decline in performance.

Compression setThey are stable over a wide temperature range (-60°C to +250°C).

Transparency and coloringSilicone rubber compounds are highly transparent, meaning they can be easily colored with pigments.

Application/Type Grade AppearanceDensity Hardness

23°C g/cm3 Durometer A

Voltage registantKE-655-U Grayish white 1.22 60

KE-675-U Grayish white 1.29 70

KE-931-U Milky white translucent 1.07 31



General moldingKE-961-U Grayish white 1.22 63



KE-961T-U Milky white translucent 1.17 62

KE-971T-U Milky white translucent 1.20 71

KE-742-U Pale yellow 1.10 45


Non post-cure KE-762-U Grayish white 1.36 60







KE-552-U Light tan 1.16 52

Heat resistant KE-582-U Light tan 1.25 80

KE-552B-U Pale yellow 1.17 52

High strengthE-5W-55-U Pale yellow 1.17 53


Low compression-set

37

1:Angle 2:150°C/22h (Not specified values)

VulcanizingFeatures

agent

Tear strengthCrescent

kN/m

Compression set180°C/22h

%

Elongationat break

%

Tensilestrength

MPa

Dielectricbreakdown strength

kV (1mm)

Volumeresistivity

TΩ·m

400 10.5 28 152 28 50 C-8A

300 8.5 231 102 28 10 C-8A

480 4.7 151 15 — — C-8

365 6.5 151 112 23 30 C-8

325 8.2 231 112 24 8 C-8

320 7.3 201 112 25 6 C-8

220 7.5 201 92 25 3 C-8

100 8.8 8 122 24 4 C-8

310 9.7 251 — — — C-8A

260 8.8 251 11 — — C-8

300 4.4 8 12 26 100 C-4

250 6.0 9 12 29 20 C-4

250 6.7 11 12 26 10 C-4

200 7.5 13 16 26 100 C-4

160 8.5 14 18 29 20 C-4

300 7.6 9 92 23 10 C-4

140 8.3 11 5 23 5 C-4

100 8.5 7 72 25 2 C-4

80 6.0 — 18 — — C-8

550 10.0 15 182 27 900 C-23

250 7.0 20 23 25 900 C-23

550 9.8 14 242 28 500 C-23 Closed heat resistant, defrosters heater.

650 11.0 35 32 27 100 C-8

550 9.4 41 18 27 200 C-8

Boots, diaphragms, bellows, clamp covers, seals, O-rings, rubber rolls.

Packing, keypads, diaphragms, rolls, etc.

Boots, diaphragms, bellows,clamp covers, seals, O-rings.

High-temperature gaskets, O-rings, rubber rolls, and oil seals.

High-temperature gaskets, high-temperature packing.

Boots, diaphragms, gaskets, seals, O-rings, belts.

38






organic rubbers.







Generalextrusion molding



KE-541-U Milky white translucent 1.1040

40


50


62


68


77


KE-530B-2-U Milky white translucent 1.13 35

KE-540B-2-U Milky white translucent 1.13 39


TubeKE-1571-U Milky white translucent 1.19 74



KE-3601SB-U Black 1.17 62

KE-3711-U Black 1.14 66

KE-3801M-U Black 1.20 73

KE-5612G-U Grayish white 1.47 59

KE-5620BL-U Black 1.38 57

Flame-resistant

KE-5620W-U White 1.40 59

KE-5634-U Translucent 1.20 70

Low hardness, high elongation

Electricallyconductive

39

VulcanizingFeatures

agent

550 8.0 10 123 — — C-23

690 8.2 20 92 — — C-25A/B

530 10.5 13 83 26 10 C-23

590 9.8 26 92 — — C-25A/B

450 11.5 15 113 25 1 C-23

470 11.5 24 92 — — C-25A/B

430 11.0 19 133 26 600 C-23

450 11.0 26 92 — — C-25A/B

310 10.5 13 143 29 50 C-23

430 10.5 23 92 — — C-25A/B

770 5.0 10 22 — — C-8

880 9.7 34 202 — — X-93-1538

700 9.7 17 92 — — C-15 Baby nipple.

530 10.5 16 — 28 600 C-23

370 9.5 23 352 25 600 C-23

650 10.0 36 — 26 900Transparent tubing for beverages.

520 8.1 37 — 28 650

290 7.0 10 — — 0.054 C-8A

170 6.5 — 12 — 0.054 C-8A

190 5.3 151 182 — 0.034

310 7.2 12 15 29 110 C-3

430 7.0 11 27 28 80

410 6.5 12 21 27 50

370 7.7 14 20 29 300 C-25A/B

Rubber insulation-coated wire, rubber tubing.

C-153AR-153Acat-PL-2

HC-101cat-PL-2

CN-12C-3

CN-12C-3


kN/m


%

Elongationat break

%

Tensilestrength

MPa


kV (1mm)

Volumeresistivity

TΩ·m

Electrically conductive rubber sheets,gaskets, O-rings, packing,contact point rubber.

Rubber insulation-coated wire,rubber sleeves, cloth tubing,insulative molded items.

1:Angle 2:150°C/22h 3:100°C/22h 4:Ω·m (Not specified values)

40






organic rubbers.








Steam resistant KE-7611-U Pale yellow 1.15 61


For transfer rollsKE-765-U Pale yellow 1.17 63


For rubber rollsKE-7008-U Pale yellow 1.30 29


KE-503-U White 1.10 32

Oil bleed KE-5042-U White 1.14 43


Heat conductive KE-6801-U Dark blue 1.90 85

Low-temperature applications KE-136Y-U Pale yellow 1.16 52



FE-251-U Pale yellow 1.41 54


FE-271-U Grayish white 1.50 73




Solvent resistant(fluorosilicone)

SEP-1711-U Yellow 1.11 70

SEP-1721-U Pale yellow 1.15 72

SEP-1731-U Gray 1.21 70

SEP-855B-U Pale yellow 1.15 56

SEP-363-U Black 1.40 70

SEP-1631-U Pale yellow 1.02 68

High durability (SEP rubber)

41

1:Angle 2:150°C/22h 3:100°C/22h 4:Ω·m 5:150°C/70h 6:105°C/70h (Not specified values)

410 9.5 12 9 — — C-15

330 9.1 11 9 — — C-8A Steam packing.

300 8.8 15 10 — — C-8A

340 10.0 — 8 27 10 C-8Heat-resistant transfer rolls.

110 8.5 — 11 26 10 C-8

450 3.8 5 13 — — C-3Low compression-set materials.

240 5.2 6 6 — — C-3

650 6.5 18 15 24 50 C-8

500 7.4 22 10 25 50 C-8 Waterproof connectors, seals.

330 7.3 19 175 23 8 C-8

110 4.0 — — 26 30 C-23 Heat-dissipating insulative covering.

620 10.2 32 166 29 200 C-23 Low temperature gaskets, packing.

VulcanizingFeatures

agent


kN/m


%

Elongationat break

%

Tensilestrength

MPa


kV (1mm)

Volumeresistivity

TΩ·m

430 9.8 15 8 — — C-8A

400 9.8 16 8 — — C-8A

300 9.0 16 9 — — C-8A

520 13.3 38 17 — — C-8AHigh tear-strength types.

520 12.7 45 14 — — C-8A

300 6.4 10 6 — — C-8A Copolymer.

Flame-resistant diaphragms and check valves.

600 17.0 35 402 — — C-11 General grade.

550 11.0 30 452 — — C-11 Heat-resistant grade.

600 14.0 30 282 — —C-12

General grade for extrusion molding.SEP-BM

750 13.0 311 452 — — C-11 Heat-resistant grade.

400 4.8 25 282 — — C-11 Flame-resistant grade.

800 15.3 36 402 — — C-11 Solar grade.

42

The name “LIMS” describes a molding system

in which liquid silicone rubber is used in high-

precision injection molding machines. All steps

are automated, from mixing to molding. This

system saves labor and time, and makes it easy

to produce high-quality molded items.

Saves timeAddition-cure liquid silicone is used, so cure speed is fast and molding time can be reduced.

Increased productivityThe materials are liquids, so molding can be done at low injection pressures. The system is also suitable for molding of high-precision components.

Automation of the molding processSuitable for flashless, runnerless molding. And because molded items release easily from the mold after curing, the molding process can be automated.

Environmentally friendlyThere are no byproducts generated during curing. With flashless and runnerless molding, there is no need to process waste material, meaning a more environmentally friendly manufacturing process.

LIMS(Liquid silicone rubber Injection Molding System)

Selective Self-adhesivesLIMS Selective Self-adhesives adhere to resins

without sticking to the mold, so they allow

integrated molding through automation.

Application Grade Viscosity

AppearancePa·s

Before curing

KEG-2000-40 (A/B) A/B: translucent A/B:1300






KE-1950-10 (A/B) A/B: translucent A/B:60






KE-1950-60 (A/B) A/B: translucent A:730/B:740


KE-1935 (A/B) A/B: transparent A:80/B:45

KE-1987 (A/B) A/B: translucent A/B:700

KE-1988 (A/B) A/B: translucent A:600/B:450

KE-2014-30 (A/B) A/B: milky white translucent A:900/B:800

Oil bleedKE-2014-40 (A/B) A/B: milky white translucent A/B:1400

KE-2014-50 (A/B) A/B: milky white translucent A/B:2000

KE-2014-60 (A/B) A/B: milky white translucent A/B:2400

Fast cureTransparentHigh strength

Application Grade ViscosityPa·s

Before curing

KE-2090-40 (A/B) A:400/B:700

KE-2090-50 (A/B) A:340/B:800

KE-2090-60 (A/B) A:450/B:700

KE-2030-70 (A/B) A/B:600

X-34-1625 (A/B) A:800/B:850

TransparentHigh strength

Hightransparency

Co-injection molding andInsert molding

43

Density Hardness Tensile strength Elongation at break Tear strength Compression set Volume resistivityAppearance23°C g/cm3 Durometer A MPa 150°C/22h % Crescent kN/m 150°C/22h % TΩ·m

Features

After curing (after 120°C/5 min press-cure, 150°C/1 hour post-cure)

Transparent 1.131 401 9.61 6401 321 62 501

Transparent 1.131 501 11.11 5801 401 82 501

Transparent 1.131 601 10.51 4501 401 92 501

Transparent 1.131 701 10.21 3501 351 72 501

Transparent 1.121 401 11.01 7001 321 62 501

Transparent 1.131 501 11.81 5301 401 82 501

Transparent 1.08 13 3.9 700 10 123 10

Transparent 1.10 20 6.4 900 25 153 10

Transparent 1.10 32 8.8 700 25 223 10

Transparent 1.12 36 9.8 700 30 363 10

Transparent 1.12 42 9.8 650 35 203 10

Transparent 1.13 52 9.3 550 40 283 10

Transparent 1.14 60 7.8 380 35 223 10

Transparent 1.15 70 7.8 350 40 503 10

High transparency 1.03 55 5.9 350 8.0 303 10

High transparency 1.15 55 8.3 430 35 503 100 High transparency.

High transparency 1.15 62 7.8 250 35 493 100

Translucent 1.124 304 8.44 7504 254 194 (150°C / 70h) 504

Translucent 1.134 404 8.84 6004 304 304(150°C / 70h) 504

Translucent 1.144 504 10.24 5604 314 244(150°C / 70h) 504

Translucent 1.144 604 9.74 4504 394 204(150°C / 70h) 504

(Not specified values):Rotational viscometer 1:150°C/5min press-cure, 150°C/1h post cure 2:150°C/10min press-cure, 200°C/4h post cure

3:120°C/10min press-cure, 150°C/1h post cure 4:150°C/10min press-cure

Oil bleed, high strength andlow specific gravities.

They are highly safe and meet the standards of Japan's Food Sanitation Law.

Before using, be sure to determine whether these materials comply with comparable laws in your country.

Flashless, runnerless molding.

Continuous automated molding with short cycle times is also possible.

Density Hardness Tensile strength Elongation at break23°C g/cm3 Durometer A MPa %

Features

After curing (after 120°C/10 min press-cure, 150°C/1h post cure)

1.11 405 9.0 630

1.12 525 8.3 420

1.12 605 7.3 240

1.13 685 7.7 230

1.09 495 7.5 450 For PA resin.

5:120°C/10min (Not specified values)

For PC and PBT resins.

44

The ST siries is a line of products of heat-shrink-

able silicone rubber tubing. The inner diameter

shrinks by about 50% simply by heating. The ST

series are used for insulation, protection, and

sheathing applications. These rubber tubings

have superior heat and cold resistance, flexibility,

and electrical insulative properties. They typical-

ly maintain their performance characteristics over

a wide temperature range, from -50°C to +200°C.

Labor savingOur heat-shrinkable tubing shrinks quickly by heating, and even complex shapes can be sheathed, thereby saving labor in the work process.

Electrical propertiesThey exhibit stable electrical properties even in the harshest conditions.

Heat-shrinkable silicone rubber tubing

Electrically conductive rubber productsThe EC series is a line of silicone rubber com-

pounds that have been given electrical conductiv-

ity through the addition of carbon and other elec-

trically conductive materials.

DurabilityCompared to electrically conductive synthetic rubbers, the rubbers in our EC series offer superior electrical conductivity, thermal conductivity, heat and cold resistance, and weather resistance.

Heat-dissipating rubber productsThe TC series is a line of products made of heat-

dissipating silicone rubbers which offer superior

electrical insulation. Special fillers have been ad-

ded to boost heat-dissipating performance. The

products of Low-hardness TC series are elastic,

have good adhesion to heating elements and heat-

sinks, and offer highly effective heat dissipation.

Heat dissipationThese products have superior thermal conductivity, elasticity, and adhesiveness (Low-hardness type), so they offer highly effective heat dissipation.

ST-DG Light gray 1.2 70

ST-DG/DB/DR Light gray, black, reddish brown 1.2 70

ST-HT Colorless translucent 1.3 65

ST-FS Pale yellow 1.5 65

TC-20A Dark blue 0.20 2.2




TC-20CG Light reddish brown 0.20 2.5




TC-20FG Light blue 0.20 3.0



TC-20EG Light blue 0.20 3.1



TC-20BG White 0.20 1.5




TC-15TCP Pink 0.15 2.14

TC-15TCI Pink 0.15 2.18

TC-100TKE Pink/Black 1.0 1.8

TC-100TKS Black 1.0 1.8

TC-100HS-1.4 Red 1.0 2.5

TC-100THE Light blue/Light reddish purple 1.0 2.9

TC-100THS Light reddish purple 1.0 2.9

TC-100TXE Light blue/Gray 1.0 3.1

TC-100TXS Gray 1.0 3.1

EC-A Yellowish brown 1.92 74

EC-BL Black 1.11 66

EC-BM Black 1.20 70

EC-BH Black 1.17 65

EC-TC Black 1.28 75





Application/Type Grade AppearanceThickness Density

mm 23°C g/cm3

High thermal conductivity silicone rubber sheets

Low hardness, high thermal conductivity silicone rubber sheets

Electrically conductive rubber products

Heat-shrinkable silicone rubber tubing

45

350 6.0 15 25 2 x 1012 about 50 UL-224 certified product.

350 6.0 15 25 2 x 1012 about 50 Special color grade.

350 5.4 24.5 20 2 x 1012 about 50 Transparent grade.

300 4.9 20 20 3 x 1012 about 50 Oil resistance grade.

80 120 4.8 8.0 9 1 1.1 0.75

80 110 5.7 8.0 12 1 1.1 1.20

80 130 6.8 9.0 15 1 1.1 1.70

80 130 7.1 9.0 20 1 1.1 2.60

90 — 25.9 70 5 1.8 1.9 0.48

90 — 24.1 81 7 1.8 1.9 0.70

90 — 20.4 70 10 1.2 1.9 1.00

90 — 9.3 24 19 1 1.9 1.30

90 — 18.0 70 4 25 3.32 0.21

90 — 17.0 50 7 10 3.32 0.43

90 — 15.0 55 8 19 3.32 0.53

95 — 22.0 76 4 25 4.5 0.15

95 — 16.8 53 7 10 4.5 0.30

95 — 14.9 59 8 19 4.5 0.45

90 — 51.0 197 7 8 5.0 0.11

90 — 51.0 223 12 10 5.0 0.26

90 — 49.0 209 16 9 5.0 0.35

90 — 14.0 54 21 11 5.0 0.46

— 47 51 84 12.5 — 1.152 0.65

— 50 46 60 12.0 — 1.152 0.64

241 — — — 25 — 1.1 1.25 Double layer.

241 — — — 24 — 1.1 1.19 Single layer.

251 250 0.35 2.0 22 — 1.35 1.09

301 — — — 20 — 2.5 0.66 Double layer.

301 — — — 20 — 2.5 0.63 Single layer.

351 — — — 21 — 5.0 0.48 Double layer.

351 — — — 20 — 5.0 0.40 Single layer.

1:Asker C 2:Calculation value (Not specified values)

160 2.5 8.0 45 30 8 x 10-5 1.0 High electrical conductivity.

300 5.7 9.2 42 27 0.009 0.38

170 7.0 15 50 24 0.025 0.63 General purpose.

250 5.2 7.0 54 20 0.05 0.57

120 4.4 9.5 40 40 0.007 0.72 High thermal conductivity.

Elongation at break Tensile strength Tear strength Dielectric breakdown Volume resistivity ShrinkageFeatures

% MPa kN/m strength kV (1mm) Ω·m %

Elongation at break Tensile strength Tear strength Rebound resiliency Compression set Volume resistivity Thermal conductivityFeatures

% MPa kN/m % 150°C/22h Ω·m W/m·K

Hardness Elongation at break Tensile strength Tear strength Dielectric breakdown Volume resistivity Thermal conductivity Thermal resistanceFeatures

Durometer A % MPa kN/m strength kV TΩ·m W/m·K °C/W



General purpose Cap and tube types available.

Medium thermal conductivity.

High thermal conductivity.

Highly electricaly insulative.

B o r o n n i t r i d e compound results in high thermal conductivitywith very low thermal resistance.

46

Silicones — playing a key role in all corners of industry.A role that will only grow.Shin-Etsu silicones are put to the test in a diverse spectrum of modern industries.We will continue to respond to these diverse needs, and ever strive to explore further possibilities.

Electric and electronic industriesTransportation and m

achinery

In cell phone keypads

For electrical insulation and moisture-proofing of electronic products

For heat-dissipation

As packing, O-rings, and other rubber components

For lubrication of bearings in transport vehi-cles and machinery

For processing of harness ter-minals

As rubber rolls for copiers and printers

For rubber components in engine compartments and for improved tire performance

As paint additives and for surface modification

For attachment/bonding of electric and electronic components

47

Chemical, textile, paper, and pulp industriesCosm

etic and food industriesConstruction m

aterials

For joint seals in clean rooms

Silicone sealants, an indispensable construction material

Application of Sil icone

As water repellents for con-struction materials

As foam stabilizers for urethane foam molding

For shampoos, rinses, and other hair care products

For joint sealing, including those of large aquarium tanks

For imparting water repellency, moisture resistance, and softness to textiles

As silylating agents in pharmaceutical manufacturing

As mold-release agents in the manufacturing of food packaging containers, and as defoaming agents in the production of food products

As additives for lipsticks and other cosmetic products

For release paper release agents for tapes, labels, and stickers

http://www.silicone.jp/

Silicone Division6-1, Ohtemachi 2-chome, Chiyoda-ku, Tokyo, Japan

Sales and Marketing Department1< Fluids >Phone : +81-(0)3-3246-5132 Fax: +81-(0)3-3246-5361

Sales and Marketing Department2< Silanes & Resins >Phone : +81-(0)3-3246-5131 Fax: +81-(0)3-3246-5361

Sales and Marketing Department3< Rubber & LIMS >Phone : +81-(0)3-3246-5151 Fax: +81-(0)3-3246-5362

< Designed Products >Phone : +81-(0)3-3246-5101 Fax: +81-(0)3-3246-5364

Sales and Marketing Department4< RTV Rubber & Grease and Fluid compounds >Phone : +81-(0)3-3246-5152 Fax: +81-(0)3-3246-5362

< Sealant >Phone : +81-(0)3-3246-5153 Fax: +81-(0)3-3246-5365

JAB CEARTIFICATE No.R003

JAB CEARTIFICATE No.RE006

The data and information presented in this catalog may not be relied upon to represent standard values. Shin-Etsu reserves the right to change such data and information, in whole or in part, in this catalog, including product performance standards and specifications without notice.

Users are solely responsible for making preliminary tests to determine the suitability of products for their intended use. Statements concerning possible or suggested uses made herein may not be relied upon, or be construed, as a guaranty of no patent infringement.

The silicone products described herein have been designed, manufactured and developed solely for general industrial use only; such silicone products are not designed for, intended for use as, or suitable for, medical, surgical or other particular purposes. Users have the sole responsibility and obligation to determine the suitability of the silicone products described herein for any application, to make preliminary tests, and to confirm the safety of such products for their use.

Users must never use the silicone products described herein for the purpose of implantation into the human body and/or injection into humans.

Users are solely responsible for exporting or importing the silicone products described herein, and complying with all applicable laws, regulations, and rules relating to the use of such products. Shin-Etsu recommends checking each pertinent country's laws, regulations, and rules in advance, when exporting or importing, and before using, the products.

Please contact Shin-Etsu before reproducing any part of this catalog. Copyright belongs to Shin-Etsu Chemical Co., Ltd.

Shin-Etsu Silicones of America, Inc.< Others besides Rubber compounds & LIMS >1150 Damar Drive, Akron, OH 44305, U.S.A.

Phone: +1-330-630-9860 Fax: +1-330-630-9855

Shincor Silicones, Inc.< Rubber compounds & LIMS >1030 Evans Avenue, Akron, OH 44305, U.S.A.

Phone: +1-330-630-9460 Fax: +1-330-630-1491

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