millline - tungaloy corporation · millline ... special insert geometry that reduces cutting force....
TRANSCRIPT
DOFEED
MillLine
Innovative high-feed cutters offerincredible productivity!
Tungaloy Report No. 403-USwww.tungaloyamer ica .com
www.t u nga l oyame r i c a .c om 3
MillLine
www. t unga l o y ame r i c a . com
High-feed cutters reduce machining time for a wide
range of applications.
4 DOFEED
0 1 2 3
Excellent chip evacuation prevents chip packing
Chipbreaker for general machining
Chipbreakerfor lowercutting force
Competitor
Reduced chatter due to double-sided insert with low cutting forces
· Large inclination forms ideal chips and controls the direction
chips flow.
· Air hole removes all chips away from the insert
and cutter body.
Crushed or unstable
Curl consistently at ideal length10 mm
10 mm
Competitor
Competitor
Spindle current (A)
MJ chipbreaker
ML chipbreaker6%
lower
9%lower
Comparison of spindle load
Good
Poor
Close pitch cutters for high productivity!
Coarse-pitch cutters minimize vibration for tools on low-powered machines.
Innovative high-feed cutters! DoFeed offers outstanding productivity with close-pitch cutters and special insert geometry that reduces cutting force. The rich lineup of items meets a wide variety of application needs.
Outstanding productivity
ø0.750 3 4 3ø1.000 4 5 4ø2.000 4 5 4ø3.000 4 6 4
: TXN06R200U0075A05
: LNMU06X5ZER-MJ
: AH725
: Carbon steels (1055)
: Vc = 590 sfm
: fz = 0.070 ipt: ap =0.039"
: Dry
: Vertical M/C, CAT50
: EXN03R100U0100-05
(ø1.000", z = 5)
: LNMU0303ZER-MJ / ML
: AH725
: Carbon steels (1055)
: Vc = 820 sfm
: fz = 0.020 ipt (1 insert)
: ap = 0.020"
: ae = 1.000" (Slot milling)
: Dry
: Vertical M/C, CAT40
Tool dia.
øDc (in)Productivity improvement compared to competitor
1.3 times
1.3 times
1.3 times
1.5 times
Cutter
Insert
Grade
Workpiece material
Cutting speed
Feed per tooth
Depth of cut
Coolant
Machine
Competitor
No. of inserts (z)
Cutter
Insert
Grade
Workpiece material
Cutting speed
Feed per tooth
Depth of cut
Width of cut
Coolant
Machine
Coarse pitch Close pitch
· ø0.750 and ø1.000 are based on EXN03 and HXN03 type · ø2.000 and ø3.000 are based on TXN06 type
www.t u nga l oyame r i c a .c om 5
A CC E L E R A T E D M A C H I N I N G
New
0 10 20 30 40 50
22%
39%39%
0 3.05 6.10 9.15 12.2 15.25 18.3
Ra0.8Ra0.8
Ra2.5Ra2.5
MJ General machining ML Low cutting force
Stainless SuperalloysSteel Cast iron
Hard Materials
Optimal rake angle
Large rake angle
Large landSmall land
4 cutting edges· Excellent combination of sharpness and
strength· Ideal for machining steel, cast iron, and
hardened steel
4 cutting edges· Exceptional sharpness· Suitable for cutting stainless steel, titanium
alloys, and other exotic materials· Reduces chattering when cutting with low
rigid set-ups
2 cutting edges· Excellent surface finish while
maintaining high productivity
Three chipbreakers for all machining needs
W Wiper insert
LNGU06-W
Extensive application coverage with a large variety of items
Stainless SuperalloysSteel Cast iron
Hard Materials
Stainless SuperalloysSteel Hard Materials
MH Robust cutting edges
CutterInsertGradeWorkpiece materialCutting speedFeed per toothDepth of cutWidth of cut CoolantMachine
: EXN03R125U0125-06: LNGU0303ZER-MH : AH8015: D2 (45HRC): Vc = 492 sfm: fz = 0.016 ipt: ap = 0.020": ae = ~ 1.250": Wet: Vertical M/C, CAT50
Competitor Competitor
Failure ratio (%)
Large radius
4 cutting edges· Robust cutting edges· Suitable for hardened steel
MH chipbreaker features:
•Robust cutting edge design
•Large radius on the wiper edge
•Modest inclination angle of the cutting edge decreases the impact to the cutter when entering the workpiece, reducing premature insert failures and extending tool life.
Insert failure ratio is significantly reduced, improving tool life stability!
Small rake angle
Nega Land
Modest inclination angle
CutterInsert
GradeWorkpiece materialCutting speedDepth of cutWidth of cut CoolantMachineMetal removal rate Q (in3/min)
Feed per tooth: Feed per tooth: ff z z == 0.039 ipt 0.039 ipt
Feed per toothFeed per tooth: : ffz z == 0.012 ipt 0.012 ipt
+ Wiper insert+ Wiper insert
Competitor Competitor Face milling cutter Face milling cutter
+ Wiper insert+ Wiper insert
Performance of wiper insert
: TXN06R300U0100A05: LNMU06X5ZER-ML x 3: LNGU06X5ZER-W x 2 : AH725: 1055 : Vc = 492 sfm: ap = 0.059" : ae = 2.362": Dry: Vertical M/C, CAT50
Wiper insert
LNGU06X5ZER-W
0.142" (Wiper length)
Metal removal rate comparison: DoFeed+wiper inserts vs face mill cutter with wiper inserts
Superb surface quality is achieved by high-feed motion
3 3 timestimesproductivity!productivity!
6 DOFEED
T U N G A LOY
AH725 AH120AH130AH3035
0 50 100 150 200
AH801515.0 92.0 3.0
3.5H10-H20
AH800515.0 93.0 2.0
H05-H15
AH8015New
AH8005New
: EXN03R075U0075-03
: LNMU0303ZER-MJ
: AH8015
: H13 (50HRC)
: Vc = 492 sfm
: fz = 0.020 ipt
: ap = 0.020"
: ae = 0.375"
: Dry
: Vertical M/C, CAT40
Cutter
Insert
Grade
Workpiece material
Cutting speed
Feed per tooth
Depth of cut
Width of cut
Coolant
Machine
・Exceptionally wear resistant in cast iron machining
Special Surface Technology
Stainless StainlessSuperalloys SuperalloysSteel Steel Cast iron Cast ironHard Materials
・Superior resistance to wear and fracture in cast iron milling
・High chipping resistance ・Ideal for titanium alloy
machining
Smooth insert surface prevents chip adhesion!・High wear and chipping
resistance and minimized built up edge due to nano multi-layered AlTiN coating with high Al content
・Well-suited for difficult
materials of 45-55 HRc
Extremely hard layer of nano multi-layered AlTiN coating with high Al content
Wear resistant substrate
Competitor
Machining length (ft)
Superior wear resistance and eliminates built up edge
Application
Specification of AH8015
Features
Grade Substrate Coating layer
Applicationcode
Relativedensity
MainComposition
Hardness(HRA)
T.R.S.(GPa)
Thickness(μm)
Hard Materials
Steel
Flash-Coating
(Ti, Al)N, base
Grades with long tool life for a wide range of materials
・Wear and fracture resistant for high-feed application
・Most suitable for steel and stainless steel machining
Hard Materials
Steel Cast iron
Cast iron
・High wear and chipping resistance and minimized built-up edge due to nano multi-layered AlTiN coating with high
Al content
・Ideal for hardened steel of 55HRc and above
Hard Materials
Hard Materials
www.t u nga l oyame r i c a .c om 7
A CC E L E R A T E D M A C H I N I N G
TXN03Super h igh feed mi l l ing cutters wi th double s ided inserts wi th 4 edges
Inch Max. ap øDc z øDc1 øDc2 øDb ød ℓ Lf b a κ° lb Air hole Insert
TXN03R150U0050A05 0.039 1.500 5 1.248 1.247 1.460 0.500 0.750 1.575 0.160 0.252 17 0.530 with LNMU03...
TXN03R150U0050A06 0.039 1.500 6 1.248 1.247 1.380 0.500 0.600 1.575 0.160 0.252 17 0.510 with LNMU03...
TXN03R200U0075A05 0.039 2.000 5 1.718 1.757 1.693 0.750 0.750 1.969 0.197 0.315 17 1.100 with LNMU03...
TXN03R200U0075A08 0.039 2.000 8 1.718 1.757 1.693 0.750 0.750 1.969 0.197 0.315 17 1.100 with LNMU03...
TXN03R200U0075A10 0.039 2.000 10 1.718 1.757 1.693 0.750 0.750 1.969 0.197 0.315 17 1.100 with LNMU03...
SPARE PARTS
Designation Clamping screw Lubricant Wrench
TXN03... CSPB-2.5 M-1000 IP-8D
A.R. = +6°, R.R. = +12° ~ 13°
TXN03
EXN03
HXN03CAT30
0.625 0.750 1.000 1.250 1.500 2.000 2.500 3.000 6.000
CAT40
CAT50 TXN06EXN06
øDcøDc1
Rb
Lf
øDbøda
κ ° ap
øDc2øDc
Mach
ine s
ize
Tool dia. : øDc (in)
Applicable area
Rich lineup of cutter bodies from ø0.625" to ø6.000"
TXN03 (øDc = 1.500" - 2.000")
TXN06 (øDc = 2.000" - 6.000")
EXN03 (øDc = 0.625" - 1.250")
EXN06 (øDc = 1.250" - 1.500")
HXN03 (øDc = 16 - 32 mm
0.630" - 1.260")
Max. ap = 0.039"
Max. ap = 0.059"
LN*U06
LNMU03
Bore typeInsert Shank type Modular type
With LNGU03-MH
With LNMU03-MJ/ML
8 DOFEED
EXN03
Inch Max. ap øDc z øDc1 øDc2 øDs L Lf ℓs κ° lb Air hole Insert Fig.
EXN03R062U0062-02 0.039 0.625 2 0.372 0.381 0.625 4.000 1.250 2.750 15 0.310 with LNMU03... 1
EXN03R062U0062-02L 0.039 0.625 2 0.372 0.381 0.625 6.000 2.000 4.000 15 0.460 with LNMU03... 1
EXN03R068U0062-02 0.039 0.688 2 0.434 0.436 0.625 4.000 1.250 2.750 17 0.310 with LNMU03... 1
EXN03R068U0062-02L 0.039 0.688 2 0.434 0.436 0.625 6.000 1.000 5.000 17 0.490 with LNMU03... 1
EXN03R075U0075-02 0.039 0.750 2 0.495 0.498 0.750 5.000 2.000 3.000 17 0.550 with LNMU03... 1
EXN03R075U0075-03 0.039 0.750 3 0.495 0.498 0.750 5.000 2.000 3.000 17 0.550 with LNMU03... 1
EXN03R075U0075-03L 0.039 0.750 3 0.495 0.498 0.750 6.500 3.500 3.000 17 0.710 with LNMU03... 1
EXN03R075U0075-03-C 0.039 0.750 3 0.494 0.498 0.750 5.000 2.000 3.000 17 0.660 with LNMU03... 2
EXN03R087U0075-02 0.039 0.875 2 0.621 0.623 0.750 5.000 2.000 3.000 17 0.570 with LNMU03... 1
EXN03R087U0075-03 0.039 0.875 3 0.621 0.623 0.750 5.000 2.000 3.000 17 0.570 with LNMU03... 1
EXN03R087U0075-03L 0.039 0.875 3 0.621 0.623 0.750 6.500 1.250 5.250 17 0.750 with LNMU03... 1
EXN03R087U0075-03-C 0.039 0.875 3 0.634 0.623 0.750 5.000 2.000 3.000 17 0.660 with LNMU03... 2
EXN03R100U0100-04 0.039 1.000 4 0.746 0.748 1.000 5.500 2.500 3.000 17 1.080 with LNMU03... 1
EXN03R100U0100-04L 0.039 1.000 4 0.746 0.748 1.000 7.000 4.000 3.000 17 1.340 with LNMU03... 1
EXN03R100U0100-05 0.039 1.000 5 0.746 0.748 1.000 5.500 2.500 3.000 17 1.080 with LNMU03... 1
EXN03R100U0100-05-C 0.039 1.000 5 0.756 0.748 1.000 5.500 2.500 3.000 17 1.100 with LNMU03... 2
EXN03R112U0100-04 0.039 1.125 4 0.871 0.872 1.000 5.500 2.500 3.000 17 1.120 with LNMU03... 1
EXN03R112U0100-04L 0.039 1.125 4 0.871 0.872 1.000 7.000 1.500 5.500 17 1.460 with LNMU03... 1
EXN03R112U0100-05 0.039 1.125 5 0.871 0.872 1.000 5.500 2.500 3.000 17 1.120 with LNMU03... 1
EXN03R125U0125-05 0.039 1.250 5 0.997 0.997 1.250 6.000 3.000 3.000 17 1.870 with LNMU03... 1
EXN03R125U0125-05L 0.039 1.250 5 0.997 0.997 1.250 8.000 5.000 3.000 17 2.430 with LNMU03... 1
EXN03R125U0125-06 0.039 1.250 6 0.997 0.997 1.250 6.000 3.000 3.000 17 1.850 with LNMU03... 1
EXN03R125U0125-06-C 0.039 1.250 6 1.008 0.997 1.250 6.000 3.000 3.000 17 1.760 with LNMU03... 2
SPARE PARTSDesignation Clamping screw Lubricant Wrench
EXN03... CSPB-2.5 M-1000 IP-8D
Super h igh feed endmi l ls wi th double s ided inserts wi th 4 edges
LLf
øDc
øDc 1
øDs
κ°
apRs
øDc
øDc 2
With LNGU03-MHWith LNMU03-MJ/ML
www.t u nga l oyame r i c a .c om 9
A CC E L E R A T E D M A C H I N I N G
A.R. = +6°, R.R. = +5° ~ +11°
Metric Max. ap øDc z øDc1 øDc2 L6 Lf C T øD3 κ° Ts Ib Air hole Insert
HXN03R016MM08-02 1 16 2 9.6 9.8 42 25 8 10 12.8 15 M8 0.07 with LNMU03...
HXN03R018MM08-02 1 18 2 11.5 11.7 42 25 8 10 14.5 17 M8 0.09 with LNMU03...
HXN03R020MM10-03 1 20 3 13.5 13.6 49 30 10 15 17.8 17 M10 0.13 with LNMU03...
HXN03R020MM10-04 1 20 4 13.5 13.6 49 30 10 15 17.8 17 M10 0.13 with LNMU03...
HXN03R022MM10-03 1 22 3 15.5 15.6 49 30 10 15 17.8 17 M10 0.13 with LNMU03...
HXN03R022MM10-04 1 22 4 15.5 15.6 49 30 10 15 17.8 17 M10 0.15 with LNMU03...
HXN03R025MM12-04 1 25 4 18.5 18.6 57 35 10 17 20.8 17 M12 0.22 with LNMU03...
HXN03R025MM12-05 1 25 5 18.5 18.6 57 35 10 17 20.8 17 M12 0.24 with LNMU03...
HXN03R028MM12-04 1 28 4 21.5 21.6 57 35 10 17 23 17 M12 0.26 with LNMU03...
HXN03R028MM12-05 1 28 5 21.5 21.6 57 35 10 17 23 17 M12 0.26 with LNMU03...
HXN03R030MM16-04 1 30 4 23.5 23.6 63 40 12 22 28.8 17 M16 0.42 with LNMU03...
HXN03R030MM16-05 1 30 5 23.5 23.6 63 40 12 22 28.8 17 M16 0.44 with LNMU03...
HXN03R032MM16-05 1 32 5 25.5 25.6 63 40 12 22 28.8 17 M16 0.44 with LNMU03...
HXN03R032MM16-06 1 32 6 25.5 25.6 63 40 12 22 28.8 17 M16 0.46 with LNMU03...
HXN03-M
Super h igh feed endmi l ls wi th TungFlex
SPARE PARTSDesignation Clamping screw Lubricant Wrench
HXN03... CSPB-2.5 M-1000 IP-8D
øD3
L6Lf
øDc
øDc 1
ap
TTs
CA
Aκ° A-A cross section
øDc
øDc 2
P � � �
M � �
K � �
N
S � �
H � � �
LNMU03-MJ(汎用ブレーカ) B
AT
rε
ap
LNMU03-ML(低抵抗ブレーカ)
BA
Trε
ap
rε Max. ap A B T
AH
13
0
AH
72
5
AH
30
35
AH
80
15
AH
80
05
LNMU0303ZER-MJ 0.047 0.039 0.126 0.236 0.169
LNMU0303ZER-ML 0.047 0.039 0.126 0.236 0.169
LNGU0303ZER-MH 0.047 0.039 0.126 0.236 0.169
New
BA
Trε
ap
New
INSERT
With LNGU03-MH
With LNMU03-MJ/ML
LNMU03-MJ (for general purpose) LNMU03-ML (for low cutting force)
Steel
Stainless
Cast iron
Non-ferrous
Superalloys
Hard materials : First choice : Second choice
Designation
Coated
: Line up
LNGU03-MH (Robust cutting edges)
10 DOFEED
Inch Max. ap øDc z øDc1 øDc2 øDb Lf ød ℓ a b lb Air hole Insert
TXN06R200U0075A04 0.059 2.000 4 1.513 1.485 1.850 1.969 0.750 0.750 0.315 0.197 0.970 with LN*U06...
TXN06R200U0075A05 0.059 2.000 5 1.513 1.485 1.850 1.969 0.750 0.750 0.315 0.197 0.990 with LN*U06...
TXN06R250U0075A04 0.059 2.500 4 2.012 1.983 2.323 1.969 0.750 0.750 0.315 0.197 1.740 with LN*U06...
TXN06R250U0075A06 0.059 2.500 6 2.012 1.983 2.323 1.969 0.750 0.750 0.315 0.197 1.760 with LN*U06...
TXN06R300U0100A05 0.059 3.000 5 2.512 2.481 2.835 2.480 1.000 1.049 0.374 0.236 3.130 with LN*U06...
TXN06R300U0100A07 0.059 3.000 7 2.512 2.481 2.835 2.480 1.000 1.049 0.374 0.236 3.280 with LN*U06...
TXN06R400U0150A06 0.059 4.000 6 3.512 3.481 3.819 2.480 1.500 1.610 0.626 0.394 4.850 with LN*U06...
TXN06R400U0150A10 0.059 4.000 10 3.512 3.481 3.819 2.480 1.500 1.610 0.626 0.394 4.850 with LN*U06...
TXN06R500U0150A08 0.059 5.000 8 4.512 4.481 3.819 2.480 1.500 1.610 0.626 0.394 7.050 with LN*U06...
TXN06R500U0150A12 0.059 5.000 12 4.512 4.481 3.819 2.480 1.500 1.610 0.626 0.394 7.280 with LN*U06...
TXN06R600U0200A10 0.059 6.000 10 5.512 5.480 4.331 2.480 2.000 1.496 0.748 0.433 9.480 with LN*U06...
TXN06R600U0200A14 0.059 6.000 14 5.512 5.480 4.331 2.480 2.000 1.496 0.748 0.433 9.260 with LN*U06...
TXN06
Super h igh feed mi l l ing cutters wi th double s ided inserts wi th 4 edges
SPARE PARTSDesignation Clamping screw Grip Lubricant Torx bit
TXN06R200U - 500U CSPB-5 H-TB2W M-1000 BLDIP20/S7
TXN06R600U... CSPB-5 H-TB2W M-1000 BLDIP20/M7
Lf
ℓ
øDcøDc1
15°
øDbøda b
ap
øDcøDc2
ød
b
a
R
ø101.6 mm
ø17 mm
øDb
ød
b
a
R
ø101.6 mm
ø18 mm
øDb
TXN06R200M47.6... TXN06R200M60.0...
A.R.=+10°,R.R.=+2°~+6°
With LNGU06-MHWith LN*U06-MJ/ML/W
Fig.1 Fig.2 Fig.3
www.t u nga l oyame r i c a .c om 11
A CC E L E R A T E D M A C H I N I N G
EXN06
Inch Max. ap øDc z øDc1 øDc2 øDs L Lf ℓs lb Air hole Insert
EXN06R125U0125W02 0.059 1.250 2 0.766 0.745 1.250 5.281 3.000 2.281 1.540 with LN*U06...
EXN06R125U0125-02L 0.059 1.250 2 0.766 0.745 1.250 8.000 5.000 3.000 2.360 with LN*U06...
EXN06R150U0125W03 0.059 1.500 3 1.014 0.989 1.250 5.781 3.500 2.281 1.830 with LN*U06...
EXN06R150U0125-03L 0.059 1.500 3 1.014 0.989 1.250 10.000 2.000 8.000 3.310 with LN*U06...
Super h igh feed endmi l ls wi th double s ided inserts wi th 4 edges
A.R. = +10°, R.R. = -2° ~ +6°
SPARE PARTSDesignation Clamping screw Lubricant Wrench
EXN06... CSPB-5 M-1000 IP-20D
LLf Rs
øDc
øDc 1
øDs
ap
15°
øDc
øDc 2
P � � �
M � �
K � � �
N
S � �
H � � �
rε Max. ap A B T bs
AH
12
0
AH
13
0
AH
72
5
AH
30
35
AH
80
15
AH
80
05
LNMU06X5ZER-MJ 0.079 0.059 0.236 0.472 0.276 -
LNMU06X5ZER-ML 0.079 0.059 0.236 0.472 0.276 -
LNGU06X5ZER-MH 0.079 0.059 0.236 0.472 0.276 -
LNGU06X5ZER-W 0.079 0.059 0.236 0.472 0.276 0.142
B
A
T
rε
ap
rε
B T
A
ap
B
Abs
T
rε
ap
New
B
A
T
rε
ap
New
INSERT
With LNGU06-MHWith LN*U06-MJ/ML/W
Steel
Stainless
Cast iron
Non-ferrous
Superalloys
Hard materials
Designation
Coated
: First choice : Second choice
: Line up
LNGU06-MH
LNMU06-MJ LNMU06-ML
LNGU06-W (2 cutt ing edges)
12 DOFEED
w
rε
R
t117°
R
t2
t1
max.
ap
max ap (in) rε (in)
W (in)t1 (in) t2 (in)
0.039 0.047 0.118 0.039 0.018 -
0.039 0.047 0.118 0.059 0.014 -
0.039 0.047 0.118 0.079 0.008 0.004
0.039 0.047 0.118 0.098 0.003 0.011
max ap (in) rε (in)
W (in)t1 (in) t2 (in)
0.039 0.047 0.118 0.039 0.018 -
0.039 0.047 0.118 0.059 0.014 -
0.039 0.047 0.118 0.079 0.008 0.004
0.039 0.047 0.118 0.098 0.003 0.011
When chips stay in the cutting zone during slotting or pocketing, use air blast to remove chips from the work area.
Tool overhang length must be as short as possible to avoid chatter. When the tool overhang length is long, decrease the number of revolutions and feed.
0.020 0.030 0.040 0.060
0.040
0.028
0.020
0.012
0
Vc = 330 - 980 sfm
Vc = 260 - 650 sfm
The use of a standard or long shank
Tool dia.: øDc = ø0.625 - 1.250"
Workpiece material: 1055
(200HB)
When using a long shank, please lower the cutting conditions (Vc, fz, ap) to 70% of the maximum conditions for the standard shank.
L/D ratio of overhang
Standard shank: L/D ≤ 3
Long shank: L/D = 4
Standard shank
Long shank
Dep
th o
f cu
t: a
p (in
)
Feed per tooth: fz (ipt)
CAUTIONARY POINTS IN USE
STANDARD CUTTING CONDITIONS TXN03/EXN03/HXN03
Tool geometry on programming
When programming for CAM, the tool should be considered as
a radius cutter. Usually, the corner radius should be set as R
= 1.5 mm. If a larger radius is used, overcutting will occur. The
following table shows the amount left uncut (t1) and overcut (t2).
Amount left overcut
Amount left overcut
Max. d
ep
th o
f cut
Corner R when programming
Amount leftuncut
Max. depth of cut Corner radius
Amount leftuncut
Corner R whenprogramming
Each value in table is calculated theoretically at the maximum condition.
Amount left overcut
Max. depth of cut Corner radius
Amount leftuncut
Corner R whenprogramming
LNGU03-MH
LNMU03-MJ/ML
ISO
ø0.625", z=2 ø0.688", z=2 ø0.750"
Vc (sfm)
ø0.620~ 0.870 ø1.000~ 2.000 n Vf n Vf n Vfz = 2 z = 3
Carbon steels
1045, 1055, etc.- 300HB
First choice AH3035 MJ330 - 990
0.020 - 0.047
0.020 - 0.059
0.0044,040 240 3,670 220 3,360 200 300
for wear resistance AH8015 MJ Vc = 660 sfm, fz = 0.030 ipt
Alloy steels
4140, SCr415, etc.- 300HB
First choice AH3035 MJ330 - 990
0.020 - 0.047
0.020 - 0.059
0.0044,040 240 3,670 220 3,360 200 300
for wear resistance AH8015 MJ Vc = 660 sfm, fz = 0.030 ipt
Prehardened steels
NAK80, PX5, etc.
30 - 40HRC
First choice AH3035 ML 330 - 6600.020 - 0.039
0.020 - 0.039
0.0043,060 180 2,780 170 2,550 150 230
Vc = 500 sfm, fz = 0.030 ipt
30 - 40HRC
for impact resistance AH3035 MJ 330 - 660
0.020 - 0.047
0.020 - 0.059
0.0043,060 180 2,780 170 2,550 150 230
Vc = 500 sfm, fz = 0.030 ipt
30 - 40HRC
for wear resistance AH8015 ML 330 - 660
0.020 - 0.039
0.020 - 0.039
0.0043,060 180 2,780 170 2,550 150 230
Vc = 500 sfm, fz = 0.030 ipt
Stainless steels
304, 316, etc.- 200HB
First choice AH3035 ML330 - 490
0.012 - 0.031
0.012 - 0.031
0.0032,510 100 2,280 90 2,090 80 130
for impact resistance AH3035 MJ Vc = 410 sfm, fz = 0.020 ipt
Gray cast irons
No.250B, etc.
150 - 250HB
First choice AH725 MJ 330 - 9900.020 - 0.047
0.020 - 0.059
0.0044,040 240 3,670 220 3,360 200 300
Vc = 660 sfm, fz = 0.030 ipt
150 - 250HB
First choice AH725 MJ 330 - 9900.020 - 0.047
0.020 - 0.059
0.0044,040 240 3,670 220 3,360 200 300
Vc = 660 sfm, fz = 0.030 ipt
Ductile cast irons
65-45-12, etc.150 -
250HB
First choice AH130 ML260 - 660
0.020 - 0.047
0.020 - 0.059
0.0043,610 220 3,280 200 3,010 180 270
for impact resistance AH130 MJ Vc = 590 sfm, fz = 0.030 ipt
Titanium alloys
Ti-6AI-4V, etc.- 40HRC
First choice AH725 ML100 - 200
0.012 - 0.028
0.012 - 0.028
0.002920 37 830 33 760 30 46
for impact resistance AH725 MJ Vc = 150 sfm, fz = 0.020 ipt
Heat-resistant alloys
Inconel, Hastelloy, etc.- 40HRC
First choice AH8015 MH70 - 170
0.004 - 0.012
0.004 - 0.012
0.003730 12 670 11 610 10 15
for wear resistance AH8005 MH Vc = 120 sfm, fz = 0.008 ipt
Hot mold steel
HB, etc.40
-55HRC
First choice AH8015 MJ260 - 490
0.004 - 0.020
0.004 - 0.020
0.0022,320 56 2,110 51 1,940 47 70
for impact resistance AH8015 MH Vc = 380 sfm, fz = 0.012 ipt
Hot mold steel of D.T.C
materials
(DAC**, DH**, DIEVER, etc)
40-55HRC
First choice AH8015 MJ160 - 330
0.004 - 0.012
0.004 - 0.012
0.0021,530 24 1,390 22 1,270 20 30
for impact resistance AH8015 MH Vc = 250 sfm, fz = 0.008 ipt
Cold mold steel
D2, etc.
55- 60HRC
for impact resistance
AH8015 MH 160 - 2300.002 - 0.008
0.002 - 0.008
0.0021,220 12 1,110 11 1,020 10 15
Vc = 200 sfm, fz = 0.005 ipt55 -
65HRCfor impact resistance
AH8015 MH 160 - 2300.001 - 0.004
0.001 - 0.004
0.0011,220 7 1,110 7 1,020 6 9
Vc = 200 sfm, fz = 0.003 ipt
Plunging Chip-
breaker
Cutting speed
Feed per tooth: fz (ipt)
Tool dia.: øDc (in)Workpiece material Hardness Priority Grade
www.t u nga l oyame r i c a .c om 13
The above table shows the conditions for standard shank type cutters. When using long shank type cutters, the number of teeth may be diff erent. In this case, the cutting conditions should be changed by referring to: “The use of standard or long shanks” shown on previous page.
Cutting conditions are generally limited by the rigidity and power of the machine and the rigidity of the workpiece. When setting the conditions, start from half of the values of the standard cutting conditions and then increase the value gradually while making sure the machine is running normally.
Tool dia. Max. depthof cut
Max. rampingangle
Max. plungingdepth
Min.machinablehole dia.
Inch øDc Max ap θ° A W øD1 øD2 ae
EXN03R062U0062... 0.625 0.039 1.7 0.012 0.118 0.897 1.181 0.492
EXN03R068U0062... 0.688 0.039 1.7 0.012 0.118 0.991 1.339 0.571
EXN03R075U0075... 0.750 0.039 1.2 0.012 0.118 1.132 1.496 0.650
EXN03R087U0075... 0.875 0.039 1 0.012 0.118 1.371 1.654 0.728
EXN03R100U0100... 1.000 0.039 0.9 0.012 0.118 1.610 1.890 0.846
EXN03R112U0100... 1.125 0.039 0.8 0.012 0.118 1.857 2.126 0.965
EXN03R125U0125... 1.250 0.039 0.7 0.012 0.118 2.104 2.441 1.122
TXN03R150U0075... 1.500 0.039 0.5 0.012 0.118 2.750 3.070 1.437
TXN03R200U0075... 2.000 0.039 0.4 0.012 0.118 3.540 3.858 1.830
· For øDc above 1.300", slot milling, ramping or contouring is not recommended as chips may be re-cut.
øD1, øD2
θ°a p A
Wae
a p
Shoulder milling Slotting
Traversing
Small depth plungingRamping
Plunging Drilling(Helical feed)
Enlarged hole
APPLICATION RANGE
Max.machinable
hole dia.
Max. cutting width in plunging
Max. cutting width in enlarged
hole
ø.875" φ1.000" φ1.125" φ1.250" φ1.500" φ2.000"
n Vf n Vf n Vf n Vf n Vf n VfZ=2 Z=3 z = 4 z = 5 z = 4 z = 5 Z=5 Z=6 z = 5 z = 6 Z=5 Z=8
2,970 180 270 2,520 300 380 2,240 270 340 2,020 300 360 1,680 250 300 1,260 190 300
Vc = 660 sfm, fz = 0.040 ipt
2,970 180 270 2,520 400 500 2,240 360 450 2,020 400 480 1,680 340 400 1,260 250 400
Vc = 660 sfm, fz = 0.040 ipt
2,250 140 200 1,910 230 290 1,700 200 260 1,530 230 280 1,270 190 230 960 140 230Vc = 500 sfm, fz = 0.040 ipt
2,250 140 200 1,910 310 380 1,700 270 340 1,530 310 370 1,270 250 300 960 190 310Vc = 500 sfm, fz = 0.040 ipt
2,250 140 200 1,910 230 290 1,700 200 260 1,530 230 280 1,270 190 230 960 140 230Vc = 500 sfm, fz = 0.030 ipt
1,840 70 110 1,570 130 160 1,390 110 140 1,250 130 150 1,040 100 120 780 80 120
Vc = 410 sfm, fz = 0.020 ipt
2,970 180 270 2,520 300 380 2,240 270 340 2,020 300 360 1,680 250 300 1,260 190 300Vc = 660 sfm, fz = 0.040 ipt
2,890 5,200 6,940 2,550 6,110 7,640 2,270 5,460 6,820 2,120 6,780 8,480 1,990 7,960 9,550 1,820 7,280 8,740Vc = 660 sfm, fz = 0.040 ipt
2,650 160 240 2,250 360 450 2,000 320 400 1,800 360 430 1,500 300 360 1,130 230 360
Vc = 590 sfm, fz = 0.030 ipt
670 27 40 570 46 57 510 41 51 460 46 55 380 38 46 290 29 46
Vc = 150 sfm, fz = 0.020 ipt
540 9 13 460 15 18 410 13 16 370 15 18 310 12 15 230 9 15
Vc = 120 sfm, fz = 0.008 ipt
1,710 41 62 1,450 70 87 1,290 62 77 1,160 70 84 970 58 70 730 44 70
Vc = 380 sfm, fz = 0.012 ipt
1,120 18 27 960 31 38 850 27 34 760 30 36 640 26 31 480 19 31
Vc = 250 sfm, fz = 0.008 ipt
900 9 14 760 15 19 680 14 17 610 15 18 510 13 15 380 10 15Vc = 200 sfm, fz = 0.005 ipt
900 5 8 760 6 8 680 5 7 610 6 7 510 5 6 380 4 6Vc = 200 sfm, fz = 0.002 ipt
Tool dia.: øDc (in), Number of revolutions: n (rpm-1), Feed speed: Vf (ipm), Max. depth of cut: ap = 0.039", No. of teeth: z
14 DOFEED
max ap (in) rε
W (in)
t1 (in) t2 (in)
0.059 0.079 0.236 0.079 0.039 -
0.118 0.030 -0.157 0.021 0.010
w
rε15°
R R
t2
t1 t1
max.
ap
max ap (in) rε
W (in)
t1 (in) t2 (in)
0.059 0.079 0.236 0.079 0.035 -
0.118 0.026 -0.157 0.026 0.010
STANDARD CUTTING CONDITIONS TXN06 / EXN06
0.020 0.040 0.060 0.080
0.060
0.040
0.020
0
Vc = 260 - 650 sfm
Vc = 330 - 980 sfm
Tool geometry for programming
When programming for CAM, the tool should be considered
as a radius cutter. Usually, the corner radius should be set
as R = 0.118". If a larger radius is used, overcutting will
occur. The following table shows the amount left as uncut
(t1) and overcut (t2).
The usage of a standard & long shank
When using a long shank, please lower the cutting
conditions (Vc, fz, ap) to 70% of the maximum conditions
for the standard shank.
Tool dia.: øDc = ø1.250" - 1.500"
Workpiece material: 1055
(200HB)
L/D ratio of overhang
Standard shank: L/D ≤ 3
Long shank: L/D = 4
Standard shank
Long shank
Dep
th o
f cu
t: a
p (in
)
Feed per tooth: fz (ipt)
When chips stay in the cutting zone during slotting or pocketing, use air blast to
remove chips from the work area.
Tool overhang length must be as short as possible to avoid chatter. When the
tool overhang length is long, decrease the number of revolutions and feed.
CAUTIONARY POINTS IN USE
Amount left overcut
Max. d
ep
th o
f cut
Corner R when programming
Amount leftuncut
Max. depth of cut
Corner radiusAmount left
uncutCorner R whenprogramming
Each value in table is calculated theoretically at the maximum condition.
Amount left overcut
Max. depth of cut
Corner radiusAmount left
uncutCorner R whenprogramming
Amount left overcut
LNGU06-MH
LNMU06-MJ/ML
ISO Work material Hardness Priority GradesChip-
breaker
Cutting speed
Feed per tooth fz (ipt)
Vc (sfm)
Tool dia: øDc (in)
Feed when plunging
fz(ipt)
ø1.250", z = 2 ø1.500", z = 2 ø2.000"
n Vf n Vf nVf
ø32 ~ ø200 z = 4 z = 5
Carbon steels
1045, 1055, etc.- 300HB
First choice AH3035 MJ330 - 990 0.020 - 0.059 0.006
2,020 162 1,680 134 1,261 202 252
for wear resistance AH3035 MJ Vc = 660 sfm, fz = 0.040 ipt
Alloy steels
4140, SCr415, etc.- 300HB
First choice AH3035 ML330 - 990 0.020 - 0.059 0.006
2,018 161 1,682 135 1,261 202 252
for wear resistance AH3035 MJ Vc = 660 sfm, fz = 0.040 ipt
Prehardened steels
NAK80, PX5, etc.
30 -
40HRCFirst choice AH8015 ML 330 - 660 0.020 - 0.039 0.006
1,529 92 1,274 76 955 115 143
Vc = 500 sfm, fz = 0.030 ipt
30 -
40HRCfor impact resistance AH3035 MJ 330 - 660 0.020 - 0.059 0.006
1,529 122 1,274 102 955 153 191
Vc = 500 sfm, fz = 0.040 ipt
30 -
40HRCfor wear resistance AH8015 ML 330 - 660 0.020 - 0.039 0.006
1,529 92 1,274 76 955 115 143
Vc = 500 sfm, fz = 0.030 ipt
Stainless steels
304, 316, etc.- 200HB
First choice AH3035 ML330 - 490 0.012 - 0.031 0.004
1,254 50 1,045 42 783 63 78
for impact resistance AH3035 MJ Vc = 410 sfm, fz = 0.020 ipt
Gray cast irons
No.250B, etc.
150 -
250HB
First choice AH120 MJ330 - 990 0.020 - 0.059 0.006
2,018 161 1,682 135 1,261 202 252
for wear resistance AH8015 MJ Vc = 660 sfm, fz = 0.040 ipt
Ductile cast irons
65-45-12, etc.
150 -
250HB
First choice AH120 MJ260 - 660 0.020 - 0.059 0.006
1,406 113 1,172 94 879 141 176
for wear resistance AH8015 MJ Vc = 460 sfm, fz = 0.040 ipt
Titanium alloys
Ti-6AI-4V, etc.- 40HRC
First choice AH130 ML100 - 200 0.012 - 0.028 0.003
459 18 382 15 287 23 29
for impact resistance AH130 MJ Vc = 150 sfm, fz = 0.020 ipt
Heat-resistant alloys
Inconel, Hastelloy, etc.- 40HRC
First choice AH725 ML70 - 170 0.004 - 0.012 0.002
367 6 306 5 229 7 9
for impact resistance AH725 MJ Vc = 120 sfm, fz = 0.008 ipt
Hot mold steel
HB, etc.
40 -
55HRC
First choice AH8015 MH260 - 490 0.004 - 0.020 0.002
1,162 28 968 23 726 35 44
for impact resistance AH8005 MH Vc = 380 sfm, fz = 0.012 ipt
Hot mold steel of D.T.C materials(DAC**, DH**, DIEVER, etc)
40 -
55HRC
First choice AH8015 MJ160 - 330 0.004 - 0.012 0.002
764 12 637 10 478 15 19
for impact resistance AH8015 MH Vc = 250 sfm, fz = 0.008 ipt
Cold mold steel
D2, etc.
50 -
60HRCFirst choice AH8005 MH 160 - 230 0.002 - 0.008 0.001
611 6 510 5 382 8 10
Vc = 200 sfm, fz = 0.005 ipt
50 -
60HRCfor impact resistance AH8015 MH 160 - 230 0.001 - 0.004 0.001
611 4 510 3 382 5 6
Vc = 200 sfm, fz = 0.030 ipt
www.t u nga l oyame r i c a .c om 15
The above table shows the conditions for standard shank type cutters.
When using long shank type cutters, the number of teeth may be diff erent.
In this case, the cutting conditions should be changed by referring to: “The
usage of standard and long shanks” shown on previous page.
Cutting conditions are generally limited by the rigidity and power of the
machine and the rigidity of the workpiece. When setting the conditions, start
from half of the values of the standard cutting conditions and then increase
the value gradually while making sure the machine is running normally.
Tool dia. Max. depthof cut
Max. rampingangle
Max. plungingdepth
Min.machinablehole dia.
Max.machinablehole dia.
Inch øDc Max . ap θ° A W øD1 øD2 ae
EXN06R125U... ø1.250 0.059 2.0º 0.020 0.236 1.830 2.300 0.970
EXN06R150U... ø1.500 0.059 1.5º 0.020 0.236 2.330 2.800 1.220
TXN06R200U... ø2.000 0.059 0.9º 0.020 0.236 3.330 3.800 1.720
TXN06R250U... ø2.500 0.059 0.6º 0.020 0.236 4.330 4.800 2.220
TXN06R300U... ø3.000 0.059 0.5º 0.020 0.236 5.330 5.800 2.720
· For øDc above 4.000", slot milling, ramping or contouring is not recommended as chips may be re-cut.
øD1, øD2
θ°a p A
aeW
Shoulder milling
Traversing
Small depth plunging Ramping Plunging
Drilling(Helical feed)
Enlarged hole
APPLICATION RANGE
Max. cutting width in plunging
Max. cutting width in enlarged
hole
Tool dia:øDc (in), Number of revolution: n (rpm), Feed speed: Vf (ipm), Max. depth of cut:ap = 0.059", Number of teeth:z
ø2.500" ø3.000" ø4.000" ø5.000" ø6.000"
nVf
nVf
nVf
nVf
nVf
z = 4 z = 5 z = 4 z = 6 z = 5 z = 8 z=8 z=12 z=10 z=15
1,009 161 202 841 168 235 631 151 252 504 161 242 420 168 252
Vc = 660 sfm, fz = 0.040 ipt
1,009 161 202 841 168 235 631 151 252 504 161 242 420 168 252
Vc = 660 sfm, fz = 0.040 ipt
764 92 115 637 96 134 478 86 143 382 92 138 318 96 143
Vc = 500 sfm, fz = 0.030 ipt
764 122 153 637 127 178 478 115 191 382 122 183 318 127 191
Vc = 500 sfm, fz = 0.040 ipt
764 92 115 637 96 134 478 86 143 382 92 138 318 96 143
Vc = 500 sfm, fz = 0.030 ipt
627 50 63 522 52 73 392 47 78 313 50 75 261 52 78
Vc = 410 sfm, fz = 0.020 ipt
1,009 161 202 841 168 235 631 151 252 504 161 242 420 168 252
Vc = 660 sfm, fz = 0.040 ipt
703 113 141 586 117 164 439 105 176 352 113 169 293 117 176
Vc = 460 sfm, fz = 0.040 ipt
229 18 23 191 19 27 143 17 29 115 18 28 96 19 29
Vc = 150 sfm, fz = 0.020 ipt
183 6 7 153 6 9 115 6 9 92 6 9 76 6 9
Vc = 120 sfm, fz = 0.008 ipt
581 28 35 484 29 41 363 26 44 290 28 42 242 29 44
Vc = 380 sfm, fz = 0.012 ipt
382 12 15 318 13 18 239 11 19 191 12 18 159 13 19
Vc = 250 sfm, fz = 0.008 ipt
306 6 8 255 6 9 191 6 10 153 6 9 127 6 10
Vc = 200 sfm, fz = 0.005 ipt
306 4 5 255 4 5 191 3 6 153 4 6 127 4 6
Vc = 200 sfm, fz = 0.030 ipt
16 DOFEED
TXN06R300U0100A07 (ø3.000", z = 7) EXN03R125U0125-06 (ø1.250", z = 6)
LNMU06X5ZER-ML x 6 / LNGU06X5ZER-W x 1 LNMU0303ZER-ML
AH130 / AH725 AH130
333 233
0.016 0.006
0.020 0.040
2.362 1.575
2.5
2.0
1.5
1.0
0.5
0
0.7
87"
3.54"
1.575"
Cu
ttin
g c
on
dit
ion
s
Workpiece type Cutter
Insert
Grade
Workpiece material
Cutting speed: Vc (sfm)
Feed per tooth: fz (ipt)
Depth of cut: ap (in)
Width of cut: ae (in)
Process
Coolant
Machine
Results
17-4
Automotive / Rod end
Face milling
Internal supply
Turning center / 7.5 kW
DoFeed is a versatile cutter and was used against a shoulder milling cutter, achieving double tool life.
Part
s /
cutt
ing
ed
ge
(pcs)
Tool life Tool life improved byimproved by
100100%!%!
Competitor
3.9
37"
59"
78.75"
360
300
240
180
120
60
0
S30400
Cutt
ing
tim
e (m
in/p
cs) 55
timestimesproductivity!productivity!
CompetitorCompetitor's tool took 300 minutes for roughing and fi nishing. DoFeed with wiper insert reduces time for fi nishing and improves total productivity by 5 times that of the competitor.
Face milling
Wet
Vertical M/C, CAT50
Machine frame
TXN06R250U0075A06 (ø2.500", z = 6) EXN03R100U0100-05 (ø1.000", z = 5)
LNMU06X5ZER-MJ LNMU0303ZER-MJ
AH3035 AH725
384 330
0.028 0.031
0.043 0.020
1.654 0.709
11.82
7.88
3.94
0
1009080706050403020100
20"
40"
80"
3.1
50"
5.9"
5.9"
Workpiece type Cutter
Insert
Grade
Workpiece material
Cutting speed: Vc (sfm)
Feed per tooth: fz (ipt)
Depth of cut: ap (in)
Width of cut: ae (in)
Process
Coolant
Machine
Results
Prehardened steel HPM7 (30HRC)
Die & Mold / Back block
Contour milling
Air blow
Vertical M/C, CAT50Cu
ttin
g c
on
dit
ion
s
1.51.5
timestimes tool life!tool life!
Competitor
Pocket milling
Dry (air)
Vertical M/C, CAT40
Prehardened steel (40HRC)
Actual machining time: 29 min
Actual machining time: 69 min
VBmax = 0.012"
VBmax = 0.012"
Cutt
ing
leng
th (ft
)
Machining Machining time time
improved by improved by
240240%!%!Competitor
AH3035 grade showed better chipping resistance than competitor improving tool life by 50%.
Too
l lif
e (m
in)
Machine parts
PRACTICAL EX AMPLES
www.t u nga l oyame r i c a .c om 17
TXN06R250U0075A06 (ø2.500" , z = 6) EXN03R125U0125-06 (ø1.250", z = 6)
LNGU06X5ZER-MH LNMU0303ZER-MJ
AH8015 AH8015
387 560
0.031 0.031
0.031 0.036
1.496 0.93
10
9
8
7
6
5
4
3
2
1
0
5
4
3
2
1
0
TXN06R600U0200A14 (ø6.000", z = 14) EXN03R075U0075-03 (ø0.750", z = 3)
LNMU06X5ZER-MJ LNMU0303ZER-MJ
AH120 AH725
500 634
0.040 0.016
0.020 0.012
4.700 0.354
160140120100806040200
2.0
"
5.9"
7.8"
15.25
12.20
9.15
6.10
3.05
0
196.8"
59"
27.6
"
Cu
ttin
g c
on
dit
ion
sWorkpiece type
Cutter
Insert
Grade
Workpiece material
Cutting speed: Vc (sfm)
Feed per tooth: fz (ipt)
Depth of cut: ap (in)
Width of cut: ae (in)
Process
Coolant
Machine
Results
CompetitorCompetitor
Die & moldLarge machine parts
Pocket milling
Dry (air)
Vertical M/C, CAT40
Face milling
Dry
Horizontal M/C, CAT50
Cutt
ing
tim
e (min)
Meta
l re
mo
val ra
te:
MR
R (in
3/m
in)
Due to the lower cutting forces, DoFeed can increase productivity 3 times higher than competitor. AH725 grade can effectively reduce sudden fracture, achieving double tool life.
DoFeed, with high density insert, can effectively increase productivity. Lower cutting forces reduce chattering, achieving 1.5 times tool life.
80-55-0680-55-06
DoubledDoubledtool life!tool life!
MRR MRR improvedimproved byby
1.41.4 times!times!
AH8015 exhibited superior wear resistance producing seven times the number of pieces compared to the competitor.
Cu
ttin
g c
on
dit
ion
s
Workpiece type
Cutter
Insert
Grade
Workpiece material
Cutting speed: Vc (sfm)
Feed per tooth: fz (ipt)
Depth of cut: ap (in)
Width of cut: ae (in)
Process
Coolant
Machine
Results
Press-cutter blade
4140(44HRC)4140(44HRC)
Machine part
Pocketing
Air blast
Vertical M/C
Face milling
Dry (air)
Vertical M/C
Competitor
Tool life Tool life improved byimproved by
77 timestimes!!
Num
. o
f p
ieces
(pcs/c
orn
er)
A combination of the MH chipbreaker and AH8015 reduced chipping and wear. Tool life has increased to 130%.
Num
. o
f p
ieces
(pcs/c
orn
er)
Competitor
Tool life Tool life improved byimproved by
1.31.3 timestimes!!
18 DOFEED
EXN03R112U0100-05 (ø1.125", z = 5) EXN03R100U0100-05 (ø1.000", z = 5)
LNMU0303ZER-ML LNMU0303ZER-ML
AH725 AH725
230 160
0.020 0.028
0.020 0.020
1.181 1.000
1.83
1.53
1.22
0.92
0.61
0.30
0
1.53
1.22
0.92
0.61
0.30
0
9.8"5.9"
19
.7"
7.9
"
1.2
"
Turbine blade
Shoulder milling
Wet
Vertical M/C, CAT50
Tripled cutting speed and super high feed milling offer 16 times higher productivity.
Aerospace component
Pocket milling
Wet
Vertical M/C, CAT40
7.3 times higher feed machining that drastically improves productivity.
Ti-6Al-4V (36HRC)
Cu
ttin
g c
on
dit
ion
s
Workpiece type Cutter
Insert
Grade
Workpiece material
Cutting speed: Vc (sfm)
Feed per tooth: fz (ipt)
Depth of cut: ap (in)
Width of cut: ae (in)
Process
Coolant
Machine
Results
Competitor Competitor
Heat resistant cast steel
Meta
l re
mo
val ra
te:
MR
R (in
3/m
in)
Meta
l re
mo
val ra
te:
MR
R (in
3/m
in)
MRR MRR improvedimproved byby
1616 times!times!
MRR MRR improvedimproved byby
3.33.3 times!times!
www.t u nga l oyame r i c a .c om 19
Check our site and our App to get more info!
w w w.t u n g a l oy a m e r i c a .c o m
www.tungaloyamer ica .com
f a c e b o o k . c o m / t u n g a l o y a m e r i c at w i t t e r . c o m / t u n g a l o y
follow us at:
www.youtube.com/tungaloycorporation
Distributed by:
Jan. 2018 (TA)
To see this product in action visit:
Scan for instant web access
Tungaloy America, Inc.3726 N Ventura Drive, Arlington Heights, IL 60004, U.S.A.
Inside Sales: +1-888-554-8394
Technical Support: +1-888-554-8391
Fax: +1-888-554-8392www.tungaloyamerica.com
Tungaloy Canada432 Elgin St. Unit 3, Brantford, Ontario N3S 7P7, CanadaPhone: +1-519-758-5779 Fax: +1-519-758-5791
www.tungaloy.com/ca
Tungaloy de Mexico S.A.C Los Arellano 113, Parque Industrial Siglo XXIAguascalientes, AGS, Mexico 20290Phone:+52-449-929-5410 Fax:+52-449-929-5411
www.tungaloy.com/mx
D O W N L O A DDr. Carbide App