MILLING TOOLS
2025
Jimei factory
Tungsten powder and alloy production base
Haicang Plant (Penglu)
Tungsten Powder Production base
Administrative Headquarters
Wuyuanwan R&D Center
GESAC Factories Distribution
Huli Factory
Tong'an factory
Tool production base
2009
1998
2006
1989
Alloy production base
Haicang Plant (GESAC)
2022
2008
Tong'an District
Jimei
District
Haicang
District
Haicang District
Huli
District Wuyuanwan
Xiamen Golden Egret Special Alloy Co., Ltd. (GESAC), founded in 1989, is a national high-tech enterprise with Chinese-foreign joint investment. It is also a key member of Xiamen Tungsten Co., Ltd., a state-owned listed company. GESAC is committed to the research, development and production of tungsten series products such as high-quality tungsten powder materials, cemented carbide and precision cutting
tools, as well as the provision of professional solutions for the industry. It is a renowned supplier of tungsten powder, cemented carbide and
cutting tools.
Relying on the product integration technology research and development of the complete tungsten industry chain and the practical and innovative management concepts, GESAC has always maintained a strong momentum of development. It provides global users with tungsten
powder products and services with the highest cost performance, and offers excellent products and comprehensive solutions for solving
the problems of high hardness, high temperature resistance and wear resistance in the modern industrial field. Its customers are distributed around the world, enjoying a high reputation both at home and abroad.
GESAC currently has more than 3,000 employees, five production bases, four overseas sales companies and one enterprise technology center. It has independently undertaken and completed a number of projects such as the \"National Science and Technology Support Program
Projects\", the \"National Science and Technology Major Projects\", the \"National Torch Program Projects\", the \"National Key New Product\"
development projects and key research topics at the provincial and municipal levels. It has been rated as a \"Backbone Enterprise in Strategic
Emerging Industries\", an \"Innovative Enterprise\" and an \"Advanced Technology Enterprise\". It has won many patents and awards, including
the second prize of the National Science and Technology Progress Award. Its cutting tools have obtained more than 400 patents, including
invention patents, utility model patents and design patents.
GESAC Profile
GESAC has a complete tungsten product chain ranging from ore mining to tungsten powder, cemented carbide products and precision
cutting tools.
Product Chain
Tungsten
ore
Ammonium
Paratungstate
Pure Tungsten Product High Density Alloys
Cobalt
Powder
Bar
Mining Alloy
Precision WearResistant Parts
Rotary File
Shield Alloy
Complex Carbide (mixture) Cast Tungsten
Carbide
Precision Parts
Tungsten
Powder
Tungsten carbide powder
Cemented carbide
Cutting tool
Indexable
tool
CBN
PCD
Solid
Carbide
Tool
Contents
004
009
019
029
034
035
036
076
124
144
176
182
185
Indexable Milling Tools A
Tool Model Designation Rules
Series Introduction
Product Application List
Introduction to Milling Insert Grades
Introduction and Application of Coating
Grades
Application of Dense and Sparse Teeth of
Indexable Milling Cutter
Planar Milling ●
Shoulder Milling ●
Profile Milling ●
Fast Feed Milling ●
Slot Milling ●
Chamfer Milling ●
Modular Extension Bar ●
198
201
202
208
209
216
246
246
256
264
270
272
634
Solid Carbide Endmills B
Gesac's Coatings
Marking Instructions
Endmill Model Designation Rules
Product Application List
Series Introduction
Tool Series Catalog (by Series)
Tool Series Catalog (by Shape)
Flat Nose ●
Filleted Corner Nose ●
Ball Nose ●
Others ●
Solid Carbide Endmills
Recommended Cutting Data
731
732
733
734
735
Appendix C
Cutting Definition and Calculation
Workpiece Material Table
Shank Standard
Hardness Comparison Table
List of Accessory Specifications
INDEXABLE MILLING TOOLS
A
MILLING Indexable Milling Tools
004
Indexable Milling Tools
A
Designation Rules of ISO Milling Insert Type
Code Relief Angle
(°)
A 3 °
B 5 °
C 7 °
D 15 °
E 20 °
F 25 °
G 30 °
N 0 °
P 11 °
O Others
② Relief Angle Code
④ Chip Breaker · Hole Code
Code
With/
without
hole
Hole shape Chip breaker Shape
N
No —
No
R Singlesided
F Doublesided
A
Yes
Cylindrical
hole
No
M Singlesided
G Doublesided
W Partial
cylindrical
hole, single-sided,
40°~60°
No
T Singlesided
Q Partial
cylindrical
hole, double-sided,
40°~60°
No
U Doublesided
B Partial
cylindrical
hole, single-sided,
70°~90°
No
H Singlesided
C Partial
cylindrical
hole, double-sided,
70°~90°
No
J Doublesided
X — — —
⑤ Iso Cutting Edge Length Code
(Mm)
Inscribed
circle
(mm)
Code Dimensions Code Dimensions Code Dimensions Code Dimensions Code Dimensions Code Dimensions Code Dimensions Code Dimensions
03 3.97 03 4.0 06 6.9 4 4.8 3.97
04 4.76 04 4.8 08 8.2 5 5.8 4.76
05 5 — — — — — — — — — — — — — — 5
05 5.56 05 5.6 03 3.8 09 9.6 6 6.8 5.56
06 6 — — — — — — — — — — — — — — 6
06 6.35 06 6.5 04 4.3 11 11 7 7.8 11 11.2 6.35
07 7.94 08 8.1 05 5.4 13 13.8 9 9.7 7.94
08 8 — — — — — — — — — — — — — — 8
09 9.525 09 9.525 09 9.7 06 6.5 16 16.5 11 11.6 16 16.6 16 19.7 9.525
10 10 — — — — — — — — — — — — — — 10
12 12 — — — — — — — — — — — — — — 12
12 12.7 12 12.7 12 12.9 08 8.7 22 22 15 15.5 22 22.1 12.7
15 15.875 15 15.875 16 16.1 10 10.9 27 27.5 19 19.4 15.875
16 16 — — — — — — — — — — — — — — 16
19 19.05 19 19.05 19 19.3 13 13 33 33 23 23.3 19.05
20 20 — — — — — — — — — — — — — — 20
22 22.225 22 22.6 38 38.5 27 27.1 22.225
25 25 — — — — — — — — — — — — — — 25
25 25.4 25 25.4 25 25.8 44 44 31 31 25.4
31 31.75 31 31.75 32 32.2 55 55 38 38.8 31.75
31 32 — — — — — — — — — — — — — — 32
Code Shape Tip Angle
(°) Graphics
H Regular
Hexagon 120 °
O Regular
Octagon 135 °
P Regular
Pentagon 108 °
S Square 90 °
T Regular
Triangle 60 °
C
Diamond
80 °
D 55 °
E 75 °
F 50 °
M 86 °
V 35 °
W Hexagon 80 °
L Rectangle 90 °
A Parallel
Quadrilateral
85 °
B 82 °
K 55 °
R Circular ——
① Shape Code
Code
Tolerance
(mm)
Tolerance
(inch)
Tip Height
(M)
Thickness
(s)
Inscribed
Circle
(Ød )
Tip Height
(M)
Thickness
(s)
Inscribed
Circle
(Ød )
A ±0.005 ±0.025 ±0.025 ±0.0002 ±0.001 ±0.001
F ±0.005 ±0.025 ±0.013 ±0.0002 ±0.001 ±0.0005
C ±0.013 ±0.025 ±0.025 ±0.0005 ±0.001 ±0.001
H ±0.013 ±0.025 ±0.013 ±0.0005 ±0.001 ±0.0005
E ±0.025 ±0.025 ±0.025 ±0.001 ±0.001 ±0.001
G ±0.025 ±0.13 ±0.025 ±0.001 ±0.005 ±0.001
J ±0.005 ±0.025 ±0.05~
±0.13 ±0.0002 ±0.001 ±0.002~
±0.005
K ±0.013 ±0.025 ±0.05~
±0.13 ±0.0005 ±0.001 ±0.002~
±0.005
L ±0.025 ±0.025 ±0.05~
±0.13 ±0.001 ±0.001 ±0.002~
±0.005
M ±0.08~
±0.18 ±0.13 ±0.05~
±0.13
±0.003~
±0.007 ±0.005 ±0.002~
±0.005
N ±0.08~
±0.18 ±0.025 ±0.05~
±0.13
±0.003~
±0.007 ±0.001 ±0.002~
±0.005
U ±0.13~
±0.38 ±0.13 ±0.08~
±0.25
±0.005~
±0.015 ±0.005 ±0.003~
±0.01
③ Accuracy Code
S
R
N
D
E
E
U
T
12
12
①
①
②
②
③
③
④
④
⑤
⑤
Indexable Milling Tools MILLING
005
Indexable Milling Tools
A
Applicable Insert Shape: H,O,P,S,T,C,E,M,W,R
Standard
Inscribed
Circle
(mm)
Tolerance of Inscribed
Circle (Ød)
(mm)
Tolerance of Tip Height
(m)
(mm)
Standard
Inscribed
Circle
(inch)
Tolerance of Inscribed
Circle (Ød)
(inch)
Tolerance of Tip Height
(m)
(inch)
J,K,L,
M,N
(grade)
U
(grade)
M,N
(grade)
U
(grade)
ClassJ,K,
L,M,N Class U ClassJ,K,
L,M,N Class U
6.35 ±0.05 ±0.08 ±0.08 ±0.13 0.250 ±0.002 ±0.003 ±0.003 ±0.005 9.525 0.375
12.7 ±0.08 ±0.13 ±0.13 ±0.2 0.500 ±0.003 ±0.005 ±0.005 ±0.008
15.875 ±0.1 ±0.18 ±0.15 ±0.27 0.625 ±0.004 ±0.007 ±0.006 ±0.011 19.05 0.750
25.4 ±0.13 ±0.25 ±0.18 ±0.38 1.000 ±0.005 ±0.010 ±0.007 ±0.015
31.75 ±0.15 ±0.25 ±0.2 ±0.38 1.250 ±0.006 ±0.010 ±0.008 ±0.015 32 1.260
Applicable Insert Shape: D
Inscribed Circle (Ød) Tolerance of
Inscribed Circle
Tolerance of Tip
Height
mm inch mm inch mm inch
6.35 0.250 ±0.05 ±0.002 ±0.11 ±0.004
9.525 0.375 ±0.05 ±0.002 ±0.11 ±0.004
12.7 0.500 ±0.08 ±0.003 ±0.15 ±0.006
15.875 0.625 ±0.10 ±0.004 ±0.18 ±0.007
19.05 0.750 ±0.10 ±0.004 ±0.18 ±0.007
Applicable Insert Shape: V
Inscribed Circle
(Ød)
Tolerance of
Inscribed Circle
Tolerance of Tip
Height
mm inch mm inch mm inch
6.35 0.250 ±0.05 ±0.002 ±0.15 ±0.006
9.525 0.375 ±0.05 ±0.002 ±0.15 ±0.006
12.7 0.500 ±0.08 ±0.003 ±0.20 ±0.008
15.875 0.625 ±0.10 ±0.004 ±0.27 ±0.011
19.05 0.750 ±0.10 ±0.004 ±0.27 ±0.011
Code Thickness
(mm)
01 1.59
T1 1.98
02 2.38
T2 2.78
03 3.18
T3 3.97
04 4.76
05 5.56
06 6.35
07 7.94
09 9.52
⑥ Thickness code
Inscribed Circle (∅d)
Tip Height (m)
Insert Thickness (s)
⑧ Code for Major Cutting
Edge
Code
Shape of
Cutting
Edge
Shape
F Sharp Edge
E Circular
Edge
T Negative
Land Angle
S
Composite
Passivated
Edge
⑨ Code for Cutting Direction
Code Shape of
Cutting Edge Diagram
R Right
L Left
N No
⑩ Code for Chip Breaker
Code Working Condition
GL General Light
Cutting
GM General Medium
Cutting
GH General Heavy
Cutting
PL Light Cutting of
Steel
PM Medium Cutting of
Steel
PR Heavy Cutting of
Steel
KM Medium Cutting of
Cast Iron
KR Heavy Cutting of
Cast Iron
MM Medium Cutting of
Stainless Steel
W* Wiper Cutting
NL/AL Light Cutting of
Nonferrous Metal
……
⑦ Tool Cutting Edge Angle, Wiper Relief Angle, and
Tip Shape
Ⅰ Ⅱ
Code
Tool Approach
Angle
Tool
Cutting
Edge
Angle
Code
Wiper
Relief
Angle
Code
Tip Arc
Radius
(mm)
A 45 ° 45 ° A 3 ° M0 Circular
Insert
D 30 ° 60 ° B 5 ° 00 0.03
E 15 ° 75 ° C 7 ° 02 0.2
F 5 ° 85 ° D 15 ° 04 0.4
P 0 ° 90 ° E 20 ° 08 0.8
Z Others F 25 ° 12 1.2
G 30 ° 16 1.6
N 0 ° 20 2.0
P 11 ° 24 2.4
Z Others 28 2.8
32 3.2
Arc
radius Tool
approach
angle
Tool
cutting
edge
angle
Relief
angle
Rε
R
N
L
06
04
AN
M0
E
T
N GM
MM
⑥
⑥
⑦
⑦
⑧
⑧
⑨
⑨
⑩
⑩
MILLING Indexable Milling Tools
006
Indexable Milling Tools
A
Model Designation Rules of Indexable Milling Cutter
MF A 1 45 160 R
① Tool Type
Planar
Milling MF Conventional
Planar Milling
Shoulder
Milling
ME Conventional
Shoulder Milling
MH Long Flute
Shoulder Milling
MV Heavy Duty
Shoulder Milling
Profile
Milling
MP Conventional
Profile Milling
MB Ball Nose Profile
Milling
Fast
Feed
Milling
MK Conventional
Fast Feed Milling
Grooving MS Three-Edge
Grooving
Chamfer
Milling
MC Chamfer Milling
Others MX Special Milling
③ Product Generation
1 1st Generation
2 2nd Generation
④ Tool Cutting Edge Angle
45 45 = 45 °
⑤ Tool Diameter
160 160 = 160 mm
② Series Number
⑥ Cutting Direction
R Right
L Left
① ② ③ ④ ⑤
Indexable Milling Tools MILLING
007
Indexable Milling Tools
A
⑫ Insert Relief Angle
N 0 °
B 5 °
C 7 °
P 11 °
D 15 °
E 20 °
F 25 °
⑧ Interface Type
A Type A Interface
B Type B Interface
C Type C Interface
D Type D Interface
M Threaded Interface
P Straight Shank
W Flattened Straight
Shank
K Disc Interface
BT Type Bt Interface
HA Hsk-A Interface
⑭ Tool Holder Length
S Short
M Moderate
L Long
⑮ Tool Tooth Pitch
U Unequal Teeth
⑨ Interface Size
40 40 = 40 mm
⑬ Cutting Edge Length
13 13 = 13 mm
⑦ Number of Teeth
09 9 teeth
⑩ Neck Type
T Tapered Neck
N No Neck
⑪ Insert Shape
V 35° Diamond
D 55 ° Diamond
C 80 ° Diamond
S Square
T Regular Triangle
R Circular
L Rectangle
09 C 40 (T) S E 13 (U) (M)
⑦ ⑧ ⑨ ⑩ ⑪ ⑫ ⑬ ⑭ ⑮
MILLING Indexable Milling Tools
008
Indexable Milling Tools
A
Model Designation Rules of Modular Extension Bars
EH M 12 G 25 L200 T (080) C
④ Shank Type
G Cylindrical Shank
BT Bt Shank
⑦ Neck Shape
S No Neck
P Reduced Neck
T Tapered Neck
⑥ Overall Length
L200 L200 = 200 mm
① Product Type
EH Modular Extension
Bar
② Thread Type
M Standard Thread
T Trapezoidal Thread
③ Thread Diameter
12 12 = 12 mm
⑤ Shank Diameter
25 25 = 25 mm
⑧ Neck Length
080 080 = 80 mm
⑨ Material
C Cemented carbide
① ② ③ ④ ⑤ ⑥ ⑦ ⑧ ⑨
Indexable Milling Tools MILLING
009
Indexable Milling Tools
A
● Single-sided positive type 4-edge insert, with a variety
of geometry designs, enabling light and smooth
cutting.
● When paired with a wiper insert, it can meet the needs
of finishing.
● It is mainly used for semi-finishing to finishing steel,
cast iron, and stainless steel materials.
Positive type four edged 45° face milling
SEE(M)T insert + MFA145 tool
● Double-sided thickened negative type 8-edge insert design,
with high strength, ensuring machining stability.
● It has a variety of tool cutting edge angle designs, including
45°, 75°, 88°, and R angles, which can meet the needs of
various working conditions.
● It provides three options of tooth numbers: sparse teeth,
dense teeth, and ultra-dense teeth, to deal with different
machining conditions.
● The MFB145 series is paired with a shim, which can protect
the tool.
● It is mainly used for rough to semi-finish face milling of steel
and cast iron materials.
Negative type eight edged 45°/75°/88°
face milling
SNE (M)U insert+
MFB145/245/275/288 Tool
SNE(M)U
● Single-sided positive type 8-edge insert, which is highly
economical.
● The insert has a wiper design, which can meet the needs of
finishing.
● It is mainly used for finishing to semi-finishing steel, cast
iron, and aluminum alloy materials.
ODK(M)T
Face Milling Series
Series Introduction
SEE(M)T
Positive type eight edged 43° face milling
ODK(M)T insert + MFA143 tool
MILLING Indexable Milling Tools
010
Indexable Milling Tools
A
● Double-sided negative type 12-edge insert design, with high
economy.
● The insert has a segmented cutting edge design and can be
paired with three types of cutters with different tool cutting
edge angles.
● It provides two options of tooth numbers: sparse teeth and
dense teeth, to deal with different machining conditions.
● It is mainly used for rough to semi-finish face milling of steel,
cast iron, and stainless steel materials.
Negative type twelve-edge 15°/45°/60°
face milling
HNG(K)U insert + MFC115/MFC145/MFC160
tool
HNG(K)U
Face Milling Series
Series Introduction
● Double-sided negative type 12-edge insert design, with high
economy and high strength, and it is a proficient tool for
machining cast iron materials.
● With a wedge-type installation and clamping method, the MFB160
has an adjustable mechanism, which can ensure the machining
surface quality.
● It provides two options of tooth numbers: sparse teeth and dense
teeth, to deal with different machining conditions.
● It is mainly used for roughing to finishing of cast iron materials.
Negative type twelve-edge 60° face milling
HNE(M)X insert + MFB160/MFB260 tool
HNE(M)X
Indexable Milling Tools MILLING
011
Indexable Milling Tools
A
● A rich variety of geometry configurations can meet the
needs of various working conditions.
● When paired with a geometry for aluminum, it can
achieve the cutting of aluminum alloy materials.
● It is mainly used for roughing steel, stainless steel, cast
iron, and aluminum alloy materials.
Positive double-edged shoulder milling
APM (G)T+MEA190 Tool
● The curved edge type structure design effectively reduces
the cutting resistance.
● When paired with a helical milling tool, it can achieve
high-efficiency milling processing.
● When paired with a geometry for aluminum, it can achieve
the cutting of aluminum alloy materials.
● It is mainly used for roughing to semi-finishing steel,
stainless steel, cast iron, and aluminum alloy materials.
Positive double-edged shoulder milling
APK(E)T insert + MEB190/MHB190 tool
APK(E)T
Shoulder Milling Series
Series Introduction
APM(G)T
● The spiral edge structure design improves the machining
accuracy of the side wall.
● The special cutting edge design enables reciprocating precision plunging machining.
● The precision-ground surface meets the requirements of
high-precision machining.
Positive type two-edge precision-ground
shoulder milling
APEW insert + MEJ190 tool
APEW
MILLING Indexable Milling Tools
012
Indexable Milling Tools
A
SDKT
XDHT
Shoulder Milling Series
Series Introduction
Positive type four edged shoulder milling
SDKT insert + MES190 tool
● The curved edge type design effectively reduces the cutting
resistance.
● The multi-relief angle design improves the strength and
sharpness of the insert.
● It can achieve various cutting methods such as face milling,
shoulder milling, and grooving.
● It is mainly used for roughing to semi-finishing steel and
cast iron materials.
● The spatial curved edge type structure design effectively
reduces the cutting resistance.
● The variable edge width structure design improves the
tool life.
● A special geometry for machining titanium alloy materials.
● It is mainly used for roughing to semi-finishing titanium
alloy materials.
Positive double-edged shoulder milling
ADGT insert + MET190 tool
ADGT
Positive type two-edge shoulder milling
for aluminum
XDHT insert + MEH190 tool
● The large rake angle design results in low resistance and
light cutting.
● The positive type double relief angle design improves the
strength of the cutting edge.
● The long cutting edge design meets the working conditions
of large-cutting depth machining.
● The curved edge type design can achieve a true 90° step
during shoulder milling.
● It is mainly used for roughing to semi-finishing aluminum
alloy materials.
Indexable Milling Tools MILLING
013
Indexable Milling Tools
A
● The negative type 6-edge insert has high economy.
● The negative type double-sided and large rake angle
structure design ensures the sharpness of the cutting edge
while improving the insert strength.
● The end edge has a wiper, which can meet the requirements
of good surface quality.
● It can achieve various cutting methods such as face milling,
shoulder milling, and grooving.
● It is mainly used for roughing to semi-finishing steel and cast
iron materials.
Negative type six-edge shoulder milling
WNG(M)U insert + MEE190 tool
WNG(M)U
Shoulder Milling Series
Series Introduction
● The unique vertically-installed structure design, with high
strength, is suitable for heavy duty milling and has high
machining efficiency.
● The negative type 8-edge design can meet the matching use of
left-handed and right-handed insert tools.
● It provides two options of tooth numbers: sparse teeth and
dense teeth, to deal with different machining conditions.
● The V-shaped positioning structure design makes the clamping
more stable.
● It is mainly used for roughing steel and cast iron materials.
Vertically-installed eight edged shoulder milling
LNE(M)T insert + MVA190/MVA290 tool
LNE(M)T
● The negative type thickened structure design enhances the tool
strength and can meet the requirements of heavy duty machining.
● The ground curved edge design can achieve good machining of
vertical walls.
● When paired with a helical milling tool, it is suitable for heavy duty
and high-efficiency machining.
● It is mainly used for roughing to semi-finishing steel and cast iron
materials.
Negative type four edged shoulder milling
ANKX insert + MEC190/MHC190 tool
ANKX
MILLING Indexable Milling Tools
014
Indexable Milling Tools
A
Precision ball nose milling
QTD/QTD-S-T insert + MBA100 tool
● The full R-shaped structure also has a corresponding
cutting edge when machining a straight wall surface.
● The unique cutting edge design makes the cutting edge
of the insert have higher strength.
● The QTD-S-T is paired with a curved edge type design,
which can effectively reduce the cutting resistance.
● It is mainly used for finishing steel, cast iron, and
hardened steel materials.
Profile Milling Series
Series Introduction
Positive type profile milling
RD/RP/RC insert + MPA100/MPB100/MPC100 tool
● It is economical and efficient and is most suitable for
profile roughing in the mould industry.
● The geometry is comprehensive, covering light duty to
heavy duty machining.
● The RC+MPC100 series products have an anti-rotation
system design, making the cutting process more stable.
● It can provide two types of inserts: economical type and
precision type, to meet the needs of different customers.
● It is mainly used for roughing to semi-finishing steel
materials.
RD/RP/RC
QTD/QTD-S-T
Indexable Milling Tools MILLING
015
Indexable Milling Tools
A Fast Feed Milling Series
Series Introduction
Positive type three edged fast feed milling
UD/UP insert + MKA110 tool
● The multi-segment line edge type structure design
optimizes the machining effect under different cutting
depths.
● The anti-friction slot design effectively reduces the cutting
temperature.
● The inserts of 3 size specifications are paired with different
geometry types, which can meet the cutting machining in
most fields.
● It is mainly used for roughing steel, cast iron, and stainless
steel materials.
UD/UP
SDMT
● The large arc curved edge design enhances the
strength of the R angle.
● When paired with the SM geometry with variable
rake angle and variable edge width, it is applied to
the aerospace industry.
● It is mainly used for roughing steel, cast iron,
stainless steel, and difficult-to-machine materials.
Positive type four edged fast feed milling
SDMT insert + MKB113 tool
SDMT-SM insert + MKM113 tool
MILLING Indexable Milling Tools
016
Indexable Milling Tools
A Fast Feed Milling Series
Series Introduction
● The positive rake angle machining results in light cutting
and stable machining.
● The two-stage cutting edge design meets the needs of
different machining working conditions.
● With a wiper design, it has good machining surface quality
during fast feed machining and side wall machining.
● The special surface coating process makes the cutting
edge surface smooth and reduces the generation of builtup edge (BUE).
● It is mainly used for roughing difficult-to-machine
materials such as titanium alloy.
Positive type four edged fast feed
milling for titanium alloy
SOE(M)T-SM insert + MKT113 tool
SOMT-ST insert + MKT213 tool
SOE(M)T
● The negative type four edged insert design achieves a higher
tooth density, high efficiency, and high economy.
● The strengthened tip arc is suitable for machining the side
walls of cavities.
● The rich combination of geometry and grades is suitable for
roughing to semi-finishing of various materials.
Negative type four edged fast feed milling
LNMX insert + MKF115 tool
LNMX
Indexable Milling Tools MILLING
017
Indexable Milling Tools
A
● It is a positive type cutting tool, enabling lighter cutting.
● The ground variable rake angle design can effectively
reduce the cutting resistance.
● It is mainly used for roughing to semi-finishing of steel
and cast iron materials.
● It can provide 4 different slot width options from 10mm
to 13mm.
● The sharp edge type design effectively reduces the cutting
resistance.
● It can provide 5 different slot width options from 4mm to
8mm.
● It is mainly used for roughing to semi-finishing of steel and
cast iron materials.
Narrow groove width three edged grooving
SNEX insert + MSA (104-108) tool
Medium slot width three edged grooving
CNEU insert + MSA (110-113) tool
Grooving Series
Series Introduction
CNEU
SNEX
MILLING Indexable Milling Tools
018
Indexable Milling Tools
A
Positive type four edged chamfer milling
SPMT insert + MCA130/MCA145/MCA160 tool
● With 4 effective cutting edges, it can achieve positive and negative
chamfering.
● The multi tool cutting edge angle tool design can meet the chamfer
machining requirements of 30°/45°/60°.
● It is mainly used for roughing to semi-finishing of steel and cast iron
materials.
Chamfer Milling Series
Series Introduction
SPMT
Indexable Milling Tools MILLING
019
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Planar
Milling
OD06: APMX =4.0mm
ODK(M)T MFA143
(Φ40-Φ200)
For planar
milling
processing
of steel, alloy
steel, cast
iron, and
aluminum
alloy
materials.
SE13: APMX =6.0mm
SEE(M)T MFA145
(Φ50-Φ200)
For planar
milling
processing
of steel, alloy
steel, cast
iron, and
aluminum
alloy
materials.
SB12: APMX =7.1mm
SBEX —
Planar milling
processing
of steel, alloy
steel, and cast
iron materials.
SE12: APMX =7.5mm
SE15: APMX =9.1mm
SEEN
SEMN
SEEX —
SP15: APMX =13.3mm
SP19: APMX =16.3mm
SP25: APMX =21.8mm
SPEN —
List of Indexable Milling Products
P048
P047
P047
P042
P038
MILLING Indexable Milling Tools
020
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Planar
Milling
SP12: APMX =11.4mm
SP15: APMX =13.2mm
SP19: APMX =15.6mm
SPK(M)N —
Planar milling
processing
of steel, alloy
steel, and
cast iron
materials.
SP15: APMX =14.0mm
SPEN-W —
SP12: APMX =10.7mm
SPER —
SP15: APMX =9.5mm
SPNR —
List of Indexable Milling Products
P049
P050
P050
P051
Indexable Milling Tools MILLING
021
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Planar
Milling
SP12: APMX =7.5mm
SP15: APMX =9.5mm
SPCW —
Planar milling
processing
of steel, alloy
steel, and cast
iron materials.
TP16: APMX =13.5mm
TP22: APMX =15.1mm
TPER
TPKR
TPKN —
TP22: APMX =15.1mm
TPNR —
SN12: APMX =3.0mm
SNE(M)U
MFB145
(Φ50-Φ315)
Including
uneven-tooth
tool
For efficient
planar milling
processing of
steel and cast
iron materials.
SN12: APMX =3.0mm
MFB245
(Φ50-Φ315)
Including
uneven-tooth
tool
List of Indexable Milling Products
P053
P052
P052
P051
MILLING Indexable Milling Tools
022
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Planar
Milling
SN12: APMX =5.0mm
SNE(M)U
MFB275
(Φ50-Φ315)
For efficient
planar milling
processing
of steel and
cast iron
materials.
SN12: APMX =7.0mm
MFB288
(Φ40-Φ315)
For efficient
large-cutting
depth planar
milling
processing
of steel and
cast iron
materials.
HN06: APMX =1.6mm
HN09: APMX =2.2mm
HNG(K)U
MFC115
(Φ25-Φ160)
For planar
milling
processing
of steel, cast
iron, stainless
steel, and
other
materials.
HN06: APMX =3.2mm
HN09: APMX =4.5mm
HN13: APMX =8.0mm
MFC145
(Φ25-Φ315)
Including
uneven-tooth
tool
List of Indexable Milling Products
P066
P053
Indexable Milling Tools MILLING
023
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Planar
Milling
HN06: APMX =4.3mm
HN09: APMX =7.4mm
HNG(K)U MFC160
(Φ40-Φ250)
For planar
milling
processing
of steel, cast
iron, stainless
steel, and
other
materials.
HN09: APMX =8.0mm
HNE(M)X
MFB160
(Φ125-Φ315)
For highefficiency,
higheconomy
adjustable
planar milling
processing
of cast iron
(special type).
HN09: APMX =8.0mm
MFB260
(Φ63-Φ315)
For dedicated
densetooth highefficiency
and higheconomy
planar milling
processing
for cast iron.
Shoulder
Profile
AP11: APMX =9.0mm
AP16: APMX
=14.0mm
APM(G)T MEA190
(Φ16-Φ250)
For shoulder,
face,
grooving, and
cavity milling
processing
of steel, cast
iron, stainless
steel, and
aluminum
alloy
materials.
List of Indexable Milling Products
P084
P079
P066
MILLING Indexable Milling Tools
024
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Shoulder
profile
AP11: APMX =9.0mm
AP16: APMX =14.0mm
APK(E)T MEB190
(φ16-φ200)
For shoulder,
face,
grooving, and
cavity milling
processing
of steel, cast
iron, stainless
steel, and
aluminum
alloy
materials.
AP11: APMX =39.9mm
AP16: APMX =57.0mm
APKT MHB190
(φ32-φ80)
For largecutting depth
shoulder
milling
processing
of steel and
cast iron
materials.
AP10:APMX =2.5mm
APEW MEJ190
(φ17-φ26)
For semifinishing to
finishing
cavity milling,
shoulder
milling,
grooving,
and plunging
of highhardness
steel
materials.
AD10: APMX =9.0mm
AD12: APMX =11.0mm
AD18: APMX =16.0mm
ADGT MET190
(φ16-φ315)
Suitable
for various
machining
methods
such as
face milling,
cavity milling,
shoulder
milling, and
grooving of
titanium alloy
materials like
TC4, TC18,
TC21, and
stainless steel
materials.
List of Indexable Milling Products
P097
P095
P089
P089
Indexable Milling Tools MILLING
025
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Shoulder
Profile
SD14: APMX =10.0mm
SDKT MES190
(φ40-φ315)
For highefficiency and
high-economy
shoulder
milling
processing
and grooving
of steel and
cast iron.
XD19: APMX =18.0mm
XDHT MEH190
(φ25-φ125)
For highefficiency
shoulder
milling
processing
of aluminum
alloy.
XP16: APMX =14.0mm
XPHT —
For shoulder
milling
processing of
steel and cast
iron materials.
AN12: APMX =9.0mm
AN16: APMX =14.0mm
ANKX MEC190
(φ32-φ200)
For highefficiency and
high-economy
shoulder
milling and
grooving
machining
of steel, cast
iron, and other
materials.
List of Indexable Milling Products
P114
P113
P109
P104
MILLING Indexable Milling Tools
026
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Shoulder
Profile
AN12: APMX =43.0mm
AN16: APMX =57.0mm
ANKX MHC190
(φ40-φ80)
For largecutting depth
shoulder
milling
processing
of steel and
cast iron
materials.
WN04: APMX =4.0mm
WN08: APMX =7.5mm
WNG(M)U
MEE190
(φ20-φ200)
Including
uneven-tooth
tool
For highefficiency
and higheconomy
shoulder
milling
processing
and grooving
of steel and
cast iron.
LN11: APMX =5.0mm
LN15: APMX =7.0mm
LNE(M)T
MVA190
(Φ40-Φ315)
For heavy
cutting
shoulder and
planar milling
processing
of steel and
cast iron
materials.
LN15: APMX =7.0mm
MVA290
(Φ80-Φ250)
List of Indexable Milling Products
P124
P119
P114
Indexable Milling Tools MILLING
027
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Profile
Milling
RD05: APMX =2.5 mm
RD07: APMX =3.5 mm
RD08: APMX =4.0 mm
RD10: APMX =5.0 mm
RD12: APMX =6.0 mm
RD16: APMX =8.0 mm
RD MPA100
(Φ10-Φ125)
For profile,
face,
grooving,
and cavity
milling
processing
of steel and
cast iron
materials.
RP08: APMX =4.0mm
RP10: APMX =5.0 mm
RP12: APMX =6.0 mm
RP16: APMX =8.0 mm
RP MPB100
(Φ16-Φ125)
For profile,
face,
grooving,
and cavity
milling
processing
of steel, cast
iron, and
stainless
steel
materials.
RC10: APMX =5.0 mm
RC12: APMX =6.0 mm
RC16: APMX =8.0 mm
RC20: APMX =10.0 mm
RC MPC100
(Φ20-Φ160)
For profile,
face,
grooving,
and cavity
milling
processing
of steel, cast
iron, and
stainless
steel
materials.
QTD
QTD-S-T
MBA100
(Φ12-Φ32)
For highprecision
profile
milling
processing
of steel, cast
iron, and
quenched
steel
materials.
List of Indexable Milling Products
P147
P136
P140
P132
MILLING Indexable Milling Tools
028
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Fast
Feed
Milling
UD08: APMX =1.0mm
UD12: APMX =1.5mm
UP17: APMX =2.0mm
UD/UP MKA110
(Φ20-Φ100)
For efficient
face,
grooving, and
cavity milling
processing
of steel, cast
iron, and
stainless steel
materials.
SD12: APMX =2.0mm
SD15: APMX =3.0mm
SDMT
MKB113
(Φ32-Φ160)
For efficient
face,
grooving, and
cavity milling
processing
of steel, cast
iron, stainless
steel, and
titanium alloy
materials.
SD09-SM: APMX =1.0mm
SD12-SM: APMX =2.0mm
Aerospacespecific:
MKM113
(φ25-φ125)
For efficient
profile, face,
grooving, and
cavity milling
processing of
stainless steel
and other
difficult-tomachine
materials.
SO09-SM: APMX =1.2mm
SO12-SM: APMX =1.4mm
SOE(M)T
-SM
MKT113
(φ25-φ125)
For efficient
face and
cavity milling
processing of
titanium alloy
materials.
List of Indexable Milling Products
P165
P157
P152
Indexable Milling Tools MILLING
029
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Fast Feed
Milling
SO09-ST: APMX =1.1mm
SO12-ST: APMX =1.8mm
SOMT-ST MKT213
(φ25-φ125)
For efficient
profile,
grooving, and
cavity milling
processing of
titanium alloy
materials.
LNMX09: APMX =1.0mm
LNMX12: APMX =1.5mm
LNMX15: APMX =2.0mm
LNMX MKF115
(Φ16-Φ200)
For efficient
face,
grooving, and
cavity milling
processing
of steel, cast
iron, stainless
steel, and
titanium alloy
materials.
Slot
Chamfering
CW MIN =4.0mm
CW MAX =8.0 mm
SNEX
MSA
(104~108)
(Φ100)
For grooving
milling
processing
of steel and
cast iron
materials.
CW MIN=10.0mm
CW MAX=13.0mm
CNEU
MSA
(110~113)
(Φ80-Φ160)
For grooving
milling
processing
of steel and
cast iron
materials.
List of Indexable Milling Products
P186
P175
P184
P165
MILLING Indexable Milling Tools
030
Indexable Milling Tools
A
Type Application Insert
Series Tool Series Diagram Introduction
Chamfer
Milling
SP09: APMX =3.0mm
SP12: APMX =4.5mm
SPMT
MCA130
(Φ25-Φ32)
For chamfer
milling
processing of
steel and cast
iron materials.
SP09: APMX =5.0mm
SP12: APMX =7.0mm
MCA145
(Φ25-Φ32)
SP09: APMX =6.0mm
SP12: APMX =8.0mm
MCA160
(Φ25-Φ36)
List of Indexable Milling Products
P190
Indexable Milling Tools MILLING
031
Indexable Milling Tools
A
Machined
Material Grade Color Coating
Type Material Structure Features
GPM7120 BlueGray PVD
• A new-generation coating with a
brand-new nanostructure, paired with
a high-strength fine-grained cemented
carbide substrate, offers excellent
wear resistance. At the same time,
it can largely resist the occurrence
of thermal cracks and edge broken,
effectively achieving a longer cutting
service life and extremely high cutting
stability.
• It is recommended for mediumto high-speed milling processing
of medium-to high-hardness steel,
suitable for both dry and wet
machining.
GA4325 Golden
Yellow PVD
• A specially designed wear-resistant
cemented carbide substrate,
combined with a newly upgraded
AlCrN coating, has excellent wear
resistance and oxidation resistance.
• It is suitable for medium-load
machining of general steel, and is the
top choice for machining soft steel.
GA4225 BlueGray PVD
• The combination of a PVD AlCrN
coating and a fine-grained cemented
carbide substrate.
• Suitable for general machining of
materials such as steel and cast iron
under medium- to low-speed working
conditions.
GA4230 Purplish
Red PVD
• The PVD TiAlN coating has a high
bonding strength with the cemented
carbide substrate with high fracture
resistance, enabling stable machining
under different working conditions.
• Suitable for general machining of
materials such as steel and cast iron,
with a wide range of applications.
GP4225 Golden
Yellow PVD
• The combination of a nanostructured
AlCrN coating and a fine-grained
cemented carbide substrate offers
excellent wear resistance.
• Suitable for semi-finishing to light
roughing of steel.
Grades for Machining P-Type Materials
Introduction to Milling Insert Grades
MILLING Indexable Milling Tools
032
Indexable Milling Tools
A
Machined
Material Grade Color Coating
Type Material Structure Features
GP2115 Black CVD
• The ultra-fine MT-TiCN and Al2O3
coating, paired with a high-cobalt
cemented carbide substrate, ensures
wear resistance while taking into
account strength and toughness,
achieving high efficiency and stability
in insert machining.
• Suitable for finishing to semi-finishing
milling of steel under medium-to-highspeed conditions.
GP01TM — No
coating
• An uncoated cermet milling grade,
after excellent process treatment, has
high toughness, high wear resistance,
and excellent edge-chipping
resistance.
• Suitable for milling processing of
various materials, with steel machining
being the primary recommendation.
Grades for Machining P-Type Materials
Introduction to Milling Insert Grades
Indexable Milling Tools MILLING
033
Indexable Milling Tools
A
Introduction to Milling Insert Grades
Machined
Material Grade Color Coating
Type Material Structure Features
GM4135 Dark
Yellow PVD
• A TiAlSiN multi-layer coating, paired
with a high-strength fine-grained
cemented carbide substrate, has
good wear resistance, toughness, and
thermal stability.
• Suitable for roughing and machining
under unstable working conditions of
difficult-to-machine materials such as
stainless steel and titanium alloy.
GM2140 Black CVD
• The MT-TiCN+ Al2O3 coating, paired
with a high-strength fine-grained
cemented carbide substrate, combines
wear resistance, toughness, and
thermal stability.
• Suitable for semi-finishing to roughing
of stainless steel and titanium alloy.
GM4240 BlueGray PVD
• A new-generation coating with a
brand-new nanostructure, paired
with a tough substrate, combines
excellent wear resistance and chipping
resistance, resulting in a high cutting
service life and cutting stability.
• At low to medium cutting speeds, it is
suitable for semi-finishing to roughing
of austenitic stainless steel and
semi-finishing and roughing of
medium-to-high-hardness steel.
Grades for Machining M-Type Materials
MILLING Indexable Milling Tools
034
Indexable Milling Tools
A
Machined
Material Grade Color Coating
Type Material Structure Features
GK4125 Purple
Grey PVD
• A nano-TiAlN coating, paired with
a fine-grained cemented carbide
substrate, has excellent wear
resistance and edge-chipping
resistance.
• Suitable for semi-finishing to
roughing milling of various cast irons
at medium- to low-speed, in both dry
and wet working conditions.
GK2115 Black CVD
• The medium-thick MT-TiCN+Al2O3
coating for cast iron milling, paired
with a special fine-grained cemented
carbide substrate, combines strength,
toughness, and wear resistance,
ensuring the stability and efficiency of
machining.
• Suitable for finishing to semi-finishing
milling of cast iron under medium- to
high-speed conditions.
Introduction to Milling Insert Grades
Grades for Machining K-Type Materials
Machined
Material Grade Color Coating
Type Material Structure Features
GN9125 — No
Coating
• An uncoated fine-grained cemented
carbide grade, combining good wear
resistance and toughness.
• Suitable for semi-finishing to
roughing of nonferrous metals such
as copper and aluminum.
Grades for Machining N-Type Materials
Indexable Milling Tools MILLING
035
Indexable Milling Tools
A
Introduction to Milling Insert Grades
Machined
Material Grade Color Coating
Type Material Structure Features
GH4115 Bronze PVD
• The combination of a nano-composite
hard coating and an ultra-fine-grained
cemented carbide substrate combines
high oxidation resistance and heat
resistance.
• Suitable for finishing to semi-finishing
milling of high-hardness steel above
55HRC.
Machined
Material Grade Color Coating
Type Material Structure Features
GS4130 Purple
Grey PVD
• A nano-TiAlN coating, paired with
a high-toughness fine-grained
cemented carbide substrate, combines
good wear resistance and toughness.
• Suitable for roughing working
conditions of difficult-to-machine
materials such as stainless steel and
titanium alloy.
GSM7130 Silver
White PVD
• A newly developed coating technology
with extremely high hardness
and excellent anti-adhesive wear
resistance, paired with a high-cobalt
tough substrate, ensures a long
service life and high reliability in
machining.
• Suitable for medium- and low-speed
machining of titanium alloy, with
high-quality machined surfaces.
Grades for Machining S-Type Materials
Grades for Machining H-Type Materials
MILLING Indexable Milling Tools
036
Indexable Milling Tools
A
Workpiece
Material ISO Coated Cemented Carbide Cemented Carbide Cermet
CVD PVD
Steel
01
10
20
30
40
50
Stainless Steel
01
10
20
30
40
50
Cast Iron
01
10
20
30
40
Nonferrous
Metals
01
10
20
30
40
Heat-Resistant
Alloys, Titanium
Alloys
01
10
20
30
40
High-Hardness
Material
01
10
20
30
Introduction and Application of Indexable Milling Coating Grades GP2115 GM2140 GK2115 GK4125 GN9125 GS4130 GH4115 GM4135 GSM7130 GM2140 GM4135 GM4240 GS4130 GP01TM GA4225 GA4325 GPM7120 GP4225 GA4230
Indexable Milling Tools MILLING
037
Indexable Milling Tools
A
Diagram
Sparse-Tooth Type Dense-Tooth Type Ultra-Dense-Tooth Type
Number of
Teeth Z=5 Z=7 Z=8
Application
• The tool body has the best
rigidity and is most suitable for
unstable working conditions.
• It is mainly used for high-feed,
large-cutting depth machining,
with large chips produced.
• It is the top choice for cutting
carbon steel, alloy steel, and
stainless steel.
• The tool combines rigidity and
machining efficiency and is the
top choice for general cutting.
• It is mainly used for
medium-feed and cutting
depth machining, with smaller
chips produced.
• It is also suitable for cutting
high-hardness steel and
heat-resistant alloys.
• It has high machining efficiency
and is most suitable for stable
working conditions.
• It is mainly used for low-feed,
small-cutting depth machining,
with very small chips produced.
• It is the top choice for
high-efficiency cutting of
workpieces such as cast iron
that are prone to chip breaking.
Application of Dense and Sparse Teeth of Indexable Milling Cutter
During milling processing, selecting the most appropriate number of cutting edges for the process can effectively balance
machining efficiency and machining accuracy. When maintaining the same cutting speed VC and feed per tooth fz, increasing the
number of cutting edges can effectively improve production efficiency, but it will also increase the cutting force. The power of the
machine is a limiting factor for the number of cutting edges involved in cutting. GESAC offers three tooth pitches for tools to meet
the applications of different working conditions.
Example of Mfb145-080 Tool:
MILLING Indexable Milling Tools
038
Indexable Milling Tools
A
ODK(M)T
Order No.
Dimensions (mm) Coated Cemented Carbide Cemented
Carbide Cermet
LE IC S D1 RE BS GA4225 GA4230 GA4325 GPM7120 GP4225 GP2115 GM4135 GM2140 GK4125 GK2115 GS4130 GH4115 GN9125 GP01TM
ODKT060508-GL 5 15.875 5.56 5.56 0.8 1.8 ●
ODKT060508-GM 5 15.875 5.56 5.56 0.8 1.5 ● ● ● ○ ● ●
ODMT060508-GM 5 15.875 5.56 5.56 0.8 1.5 ● ● ○ ● ○ ● ○
ODKT060508-GH 5 15.875 5.56 5.56 0.8 1.8 ● ● ● ○
ODMT060508-GH 5 15.875 5.56 5.56 0.8 1.8 ● ○ ○ ○
ODKT060508-AL 5 15.875 5.56 5.56 0.8 1.8 ●
ODKW060508-WB 5 15.875 5.56 5.56 0.8 5.7 ●
Planar Milling
Positive-Type Eight Edged Face Milling Inserts
●Stock ○Available Upon Order
Indexable Milling Tools MILLING
039
Indexable Milling Tools
A Light Cutting of General
Materials
Medium Cutting of
General Materials
Heavy Cutting of General
Materials Aluminum Cutting Wiper
GL GM GH AL WB
Large rake angle,
narrow edge width,
most suitable for lightload machining with low
cutting force and low
feed rate.
Large rake angle,
light cutting, highstability machining
can be achieved under
most general working
conditions.
Large slot width, highstrength cutting edge,
excellent performance in
roughing.
Large rake angle, sharp
edge, light cutting,
polished surface, good
chip removal.
Wiper design significantly
improves the surface
machining quality.
Odk(M)T Series Geometry
MILLING Indexable Milling Tools
040
Indexable Milling Tools
A
MFA143
Mandrel Type
Order No. Diameter Teeth
Dimensions (Mm) Max.
Cutting
Depth
APMX
Matched
Insert
Internal
Cooling Diagram Weight
(KG)
In
DC DCX DCON Stock LF KWW KDP
MFA143-040R03A16-OD06 40 3 40 50 16 40 8.4 5.6 4 ODK(M)T0605 × Fig1 0.20 ●
MFA143-050R04A22-OD06 50 4 50 60 22 40 10.4 6.3 4 ODK(M)T0605 × Fig1 0.31 ●
MFA143-063R05A22-OD06 63 5 63 72 22 40 10.4 6.3 4 ODK(M)T0605 × Fig1 0.50 ●
MFA143-080R06B27-OD06 80 6 80 90 27 50 12.4 7 4 ODK(M)T0605 × Fig2 0.88 ●
MFA143-100R07B32-OD06 100 7 100 110 32 50 14.4 8 4 ODK(M)T0605 × Fig2 1.43 ●
MFA143-125R08B40-OD06 125 8 125 135 40 63 16.4 9 4 ODK(M)T0605 × Fig2 3.02 ●
MFA143-160R10C40-OD06 160 10 160 170 40 63 16.4 9 4 ODK(M)T0605 × Fig3 4.12 ●
MFA143-200R12C60-OD06 200 12 200 210 60 63 25.7 14 4 ODK(M)T0605 × Fig3 6.42 ●
Planar Milling
Fig1 Fig2 Fig3
List of Tool Accessories
Parts Name Insert Screw Recommended Torque Insert Screw Wrench
Shape
Suitable Insert
ODK(M)T0605 Order No. SI60M050108-07209S 5.0N·m TT20TB
Schematic Diagram of Wiper Installation
The ODKW060508-WB has a total of 2 wipers available and can only be used on a right-handed insert cutter.
When using, place wiper 1 or 2 parallel to the workpiece surface.
Schematic Diagram of Wiper 1 Installation Schematic Diagram of Wiper 2 Installation
●Stock ○Available Upon Order
Indexable Milling Tools MILLING
041
Indexable Milling Tools
A
Machined Material Material
Hardness Grade Specifications
Recommend
Cutting Depth
Ap(mm)
Cutting Speed
Vc(m/min)
Feed/edge fz(mm)
Light Cutting
(L)
Medium
Cutting (M)
Heavy
Cutting (H)
Soft Steel ≤ HB180
GPM7120
GA4225
GA4230
ODK(M)T0605 2 220
(180-260)
0.2
(0.1-0.3)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Carbon
Steel, Alloy
Steel
HB180-350
GPM7120
GA4225
GA4230
GP2115
ODK(M)T0605 2 220
(180-260)
0.15
(0.1-0.2)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Prehardened
Steel
HRC35-45
GPM7120
GA4230
GA4225
GP2115
ODK(M)T0605 2 150
(110-190)
0.1
(0.05-0.15)
0.15
(0.1-0.2)
0.2
(0.1-0.3)
Stainless
steel
(Ferritic,
Martensitic)
≤ HB270 GM2140
GA4230 ODK(M)T0605 2 160
(120-200)
0.15
(0.1-0.2)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Stainless
Steel
(Austenitic,
Duplex)
≤ HB270 GM2140 ODK(M)T0605 2 140
(100-180)
0.1
(0.05-0.15)
0.15
(0.1-0.2)
0.2
(0.1-0.3)
Gray Cast
Iron ≤ HB280 GK2115
GK4125 ODK(M)T0605 2 180
(140-220)
0.2
(0.1-0.3)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Nodular
Cast Iron,
Compact
Graphite
Iron
≤ HB350 GK4125
GK2115 ODK(M)T0605 2 160
(120-200)
0.15
(0.1-0.2)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Aluminum
Products HB60-210 GN9125 ODKT0605 2 ≥ 300 0.15
(0.1-0.2)
0.2
(0.1-0.3)
0.25
(0.2-0.4)
Heatresistant
Alloys,
Titanium
Alloys
HRC30-45 GS4130 ODK(M)T0605 2 40
(30-60)
0.15
(0.1-0.2)
0.2
( 0.1-0.3) —
Recommended Cutting Data
MILLING Indexable Milling Tools
042
Indexable Milling Tools
A
Order No.
Dimensions (mm) Coated Cemented Carbide Cemented
Carbide Cermet
LE IC S D1 RE BS GA4225 GA4230 GA4325 GPM7120 GP4225 GP2115 GM4135 GM2140 GK4125 GK2115 GS4130 GH4115 GN9125 GP01TM
SEET1204AFEN-PL 8.2 12.7 4.76 5.5 1.2 1.6 ● ● ● ● ● ● ● ● ● ●
SEET13T3AGEN-PL 8.8 13.4 3.97 4.4 1 1.7 ● ● ● ● ○ ● ●
SEET13T3AGEN-PM 8.8 13.4 3.97 4.4 1.5 1.2 ● ● ● ● ● ● ● ●
SEMT13T3AGEN-PM 8.8 13.4 3.97 4.4 1.5 1.2 ● ● ● ● ● ● ●
SEET13T3AGSN-PH 8.8 13.4 3.97 4.4 1.66 1.2 ○ ● ○ ○ ○ ●
SEMT13T3AGSN-PH 8.8 13.4 3.97 4.4 1.66 1.2 ○ ● ○ ● ○ ●
SEET13T3AGSN-KM 8.8 13.4 3.97 4.4 1.44 1.3 ○ ● ● ○
SEET13T3AGSN-KH 8.8 13.4 3.97 4.4 1.6 1.3 ○ ○ ○ ●
SEMT13T3AGSN-KH 8.8 13.4 3.97 4.4 1.6 1.3 ○ ○ ○
SEET13T3AGFN-AL 9.6 13.4 3.97 4.4 0.4 2.2 ●
SEET13T3AGEN-WB 9.5 13.4 3.97 4.3 1.2 7.5 ● ○
Planar Milling
SEE(M)T
Positive-Type Four Edged Face Milling Inserts
Note:
★ The SEET1204AFEN-PL insert has no corresponding tool.
●Stock ○Available Upon Order
Indexable Milling Tools MILLING
043
Indexable Milling Tools
A
See(M)T Series Geometry
Light Cutting
of Steel Parts
Materials
Medium Cutting
of Steel Parts
Materials
Heavy Cutting
of Steel Parts
Materials
Medium Cutting of
Cast Iron Materials
Heavy Cutting
of Cast Iron
Materials
Aluminum Cutting Wiper
PL PM PH KM KH AL WB
Large rake angle
and narrow edge
width design,
most suitable
for light-load
machining with
low cutting force
and low feed
rate.
Large rake angle
design, light
cutting, and
high-stability
machining can
be achieved
under most
general working
conditions.
High-strength
cutting edge,
excellent
performance in
interrupted cut
and roughing
with scale
removal.
Special geometry
for cast iron can
handle most
medium-load
cutting of cast
iron.
Special geometry
for heavy duty
cutting of cast
iron, excellent
performance in
interrupted and
roughing with
scale.
Large rake angle,
sharp edge, light
cutting, mirrorpolished surface,
good chip
removal.
Large-arc wiper,
improving the
high quality
surface.
MILLING Indexable Milling Tools
044
Indexable Milling Tools
A
Order No. Diameter Teeth
Dimensions (mm) Maximum
Cutting
Depth
APMX
Matched Insert Shim Internal
Cooling Diagram Weight
(KG)
In
Stock DC DCX DCON LF KWW KDP
MFA145-050R04A22-SE13 50 4 50 63 22 40 10.4 6.3 6 SEE(M)T13T3 × × Fig1 0.37 ●
MFA145-063R05A22-SE13 63 5 63 76 22 40 10.4 6.3 6 SEE(M)T13T3 × × Fig1 0.58 ●
MFA145-080R06B27-SE13 80 6 80 93 27 50 12.4 7 6 SEE(M)T13T3 √ × Fig2 0.99 ●
MFA145-100R07B32-SE13 100 7 100 113 32 50 14.4 8 6 SEE(M)T13T3 √ × Fig2 1.71 ●
MFA145-125R08B40-SE13 125 8 125 138 40 50 16.4 9 6 SEE(M)T13T3 √ × Fig2 3.09 ●
MFA145-125R12B40-SE13 125 12 125 138 40 50 16.4 9 6 SEE(M)T13T3 √ × Fig2 2.98 ●
MFA145-160R10C40-SE13 160 10 160 173 40 63 16.4 9 6 SEE(M)T13T3 √ × Fig3 4.35 ●
MFA145-200R12C60-SE13 200 12 200 213 60 63 25.7 14 6 SEE(M)T13T3 √ × Fig3 5.95 ○
● Stock ○ Available Upon Order
Planar Milling
MFA145
Mandrel Type
Sparse-tooth Type Fig1 Fig2 Fig3
Dense-tooth Type
Order No. Diameter Teeth
Dimensions (mm) Maximum
Cutting
Depth
APMX
Matched Insert Shim Internal
Cooling Diagram Weight
(KG)
In
Stock DC DCX DCON LF KWW KDP
MFA145-050R03A22-SE13 50 3 50 63 22 40 10.4 6.3 6 SEE(M)T13T3 × × Fig1 0.41 ●
MFA145-063R04A22-SE13 63 4 63 76 22 40 10.4 6.3 6 SEE(M)T13T3 × × Fig1 0.62 ●
● Stock ○ Available Upon Order
MFA145
Cylindrical Straight Shank Type
Sparse-tooth Type
Dense-tooth Type
Fig4
Order No. Diameter Teeth
Dimensions (mm) Maximum
Cutting
Depth
APMX
Matched Insert Shim Internal
Cooling Diagram Weight
(KG)
In
Stock DC DCX DCON LF LU
MFA145-050R03P32-SE13 50 3 50 63 32 120 39 6 SEE(M)T13T3 × × Fig4 0.94 ●
MFA145-063R04P32-SE13 63 4 63 76 32 120 39 6 SEE(M)T13T3 × × Fig4 1.09 ●
● Stock ○ Available Upon Order
Order No. Diameter Teeth
Dimensions (mm) Maximum
Cutting
Depth
APMX
Matched Insert Shim Internal
Cooling Diagram Weight
(KG)
In
Stock DC DCX DCON LF LU
MFA145-050R04P32-SE13 50 4 50 63 32 120 39 6 SEE(M)T13T3 × × Fig4 0.90 ●
MFA145-063R05P32-SE13 63 5 63 76 32 120 39 6 SEE(M)T13T3 × × Fig4 1.05 ●
● Stock ○ Available Upon Order
Indexable Milling Tools MILLING
045
Indexable Milling Tools
A
List of Tool Accessories
Parts Name Shim Screw for Shim
Shim
Screw
Wrench
Insert Screw Recommended
Torque Insert Screw Wrench
Shape
Suitable Insert
See(M)T13t3
(For Tool Without
Shim)
Order
No. — — — SI60M035080-05410B 3.0N·m TT15PB —
See(M)T13t3
(For Tool with
Shim)
Order
No. H0K30DSE1300S SSAM050070B TH35LB SI60M035116-05410IB 3.0N·m TI15PB TI15TB
Schematic Diagram of Wiper Installation
The SEET13T3AGEN-WB has a total of 2 wipers available. The R-side wiper can only be used on a right-handed insert cutter, and the
L-side wiper can only be used on a left-handed insert cutter.
When using, place the wiper R or L parallel to the workpiece surface.
Use the R-side wiper on the right-handed insert cutter. Use the L-side wiper on the left-handed insert cutter.
Note:
★ 1. For the MFA145 tool without a shim, select the accessory specification without a shim.
★ 2. For the MFA145 tool with a shim (ø ≥ 80mm), select the accessory specification with a shim.
MILLING Indexable Milling Tools
046
Indexable Milling Tools
A
Recommended Cutting Data
Machined Material Material
Hardness Grade Specifications
Recommended
Cutting Depth
Ap(mm)
Cutting Speed Feed/edge Fz (mm)
Vc(m/min) Light Cutting
(L)
Medium
Cutting (M)
Heavy Cutting
(H)
Soft Steel ≤ HB180
GA4325
GPM7120
GA4225
GA4230
GP4225
SEE(M)T13T3 2 250
(210-290)
0.2
(0.1-0.3)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Carbon
Steel,
Alloy Steel
HB180-350
GA4325
GPM7120
GP2115
GA4225
GA4230
GP4225
SEE(M)T13T3 2 220
(180-260)
0.15
(0.1-0.2)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Prehardened
Steel
HRC35-45
GPM7120
GA4325
GP2115
GA4230
GA4225
SEE(M)T13T3 2 140
(100-180)
0.1
(0.05-0.15)
0.15
(0.1-0.2)
0.2
(0.1-0.3)
Stainless
Steel
(Ferritic,
Martensitic)
≤ HB270 GM2140 SEE(M)T13T3 2 180
(140-220)
0.15
(0.1-0.2)
0.25
(0.15-0.35)
0.3
(0.2-0.4)
Stainless
Steel
(Austenitic,
Duplex)
≤ HB270 GM2140 SEE(M)T13T3 2 140
(100-180)
0.1
(0.05-0.15)
0.15
(0.1-0.2)
0.2
(0.1-0.3)
Gray Cast
Iron ≤ HB280 GK2115
GK4125 SEE(M)T13T3 2 180
(140-220)
0.15
(0.1-0.2)
0.2
(0.1-0.3)
0.3
(0.2-0.4)
Nodular Cast
Iron,
Compact
Graphite
iron
≤ HB350 GK4125
GK2115 SEE(M)T13T3 2 160
(120-200)
0.1
(0.05-0.2)
0.15
(0.1-0.2)
0.3
(0.2-0.4)
Aluminum
Products HB60-210 GN9125 SEET13T3 2 ≥ 300 0.15
(0.1-0.2)
0.2
(0.1-0.3)
0.3
(0.2-0.4)
Heatresisting
Alloy,
Titanium
Alloy
HRC30-45 GS4130 SEE(M)T13T3 2 40
(30-60)
0.15
(0.1-0.2)
0.2
( 0.1-0.3) —
Indexable Milling Tools MILLING
047
Indexable Milling Tools
A
SBEX
SEEN/SEMN/SEEX
ISO Face Milling Insert
ISO Face Milling Insert
Planar Milling
Order No.
Dimensions
(mm)
Cemented
carbide
Coated cemented
carbide Cermet
LE IC S BS GA0115 GK0115 GA4225 GA4230 GP4225 GP01TM
SBEX1204ZZ-1 11.51 12.7 4.76 0.8 ○
Order No.
Dimensions
(mm)
Cemented
Carbide
Coated Cemented
Carbide Cermet
LE IC S BS GA0115 GK0115 GA4225 GA4230 GP4225 GP01TM
SEEN1203AFTN 8.74 12.7 3.18 1.46 ○ ○ ●
SEEN1204AFTN 8.48 12.7 4.76 1.63 ○
SEEN1504AFTN 11.61 15.875 4.76 1.57 ○ ●
SEMN1203AFTN 8.74 12.7 4.76 1.46 ○ ●
SEEN1203AFEN 8.76 12.7 3.18 1.46 ●
SEEX1203AFTN 8.3 12.7 3.18 1.73 ●
●Stock ○Available Upon Order
●Stock ○Available Upon Order
MILLING Indexable Milling Tools
048
Indexable Milling Tools
A
SPEN
ISO Face Milling Insert
Planar Milling
Order No.
Dimensions
(mm)
Cemented
Carbide
Coated Cemented
Carbide Cermet
LE IC S RE GA0115 GK0115 GA4225 GA4230 GP4225 GP01TM
SPEN150420T 13.87 15.875 4.76 2.0 ○
SPEN150430T 12.87 15.875 4.76 3.0 ○
SPEN190424T 16.65 19.05 4.76 2.4 ○
SPEN250730T 22.4 25.4 7.94 3.0 ○
SPEN190424-WC 15.65 19.05 4.76 2.4 ○
SPEN250730-WC 21.45 25.4 7.94 3.0 ○
●Stock ○Available Upon Order




