indexable square end mill asm - moldino

New Produc t News 2020-10

Super Excellent Mini ASM

ASM type

No.1203E-7

All sizes have become center-through products.

Indexable Square End Mill

High-efficient tooling system and selecting a cutting conditions

Cutting programs

2 kinds of insert geometry・High-efficient tooling system to match cutting depth or cutting shape

PureCopper

Carbon steelAlloy steel

Stainless-steelTool steel

Pre-hardened steelHardened steel30～45HRC

Hardened steel45̃55HRC


JM4160 JP4105JP4120

Easy cutting

Environment

Multi-function

Small dia.

Applications

Features 01 2 types of applications by changing inserts

Roughing SemiFinishing

・ASM enables high-efficient machining according to cutting shape by combined use with various tooling systems.

・Regular R shape is used for corner R. There is no need for an approximate R definition.

・2 kinds of inserts are available: Standard type inserts (T-type) and low-cutting force-type inserts.・Low-resistance cutting force-type inserts reduce cutting force at the corners when pocketting by approximately 10%.1

2

3

Steel Shank typeCarbide ShankModular Arbor

With center through-holefor excellent chip removal

Work material：S50CTools： ASMM0710R-2(φ10-2NT) +ASC10-6.5-114-49Cutting Conditions： vc=160m/min vf=6,115mm/min ap × ae=0.25×5mm Tool overhang 80mm

EDMT-type insert formachining efficiency

JDMT-type insert forhigh-grade machined surfaces

Utilizes rε2.0 cutting edge shape. Does not leave excess at edges. Low cutting resistance

Utilizes Fine Wall (FW) shape. Decrease unevenness of machined surfaces Decrease burring

▼▼

▼▼

Work material：S50CTools： ASM0712S12R-2(φ12-3NT) +ASC10-6.5-114-49Cutting Conditions： vc=200m/min vf=800mm/min ap × ae=5×0.5mm×2 Tool overhang 25mm

Cut

ting

dept

hTo

ol o

verh

ang

leng

th L

/ To

ol d

iam

eter（

L/D

c）

1

2

3

4

5

6

7

8

Features & Cutting Conditions

①Tool tip diameter φD2=φDc - 4(mm)②When performing pocket cutting, be careful of the cutting width (ae) and generated variations due to remaining work 　to cut. (Recommended Cutting width ae=φD2×0.5～0.8(mm))③When cutting the corner area of a vertical wall, setting thetool pathcorner area to R will enable more stable cutting.

rε2.0

φD2

φDC

General-purpose combination Tool overhang length can be minimized. By making effective use of machine tool rigidity, it can be used effectively on small-sized, low-rigidity machines.

Exhibits good machining effects when long tool overhang lengths are necessary.

As a general rule, the feed rate per flute (fz) should be reduced to between 50% and 70% of the value listed in the standard cutting conditions and adjusted.



Shank type holder Modular type holder + Modular arbor Modular type holder + Carbide Shank

Refer to standardcutting conditions



①This table shows general conditions for shoulder cutting. Adjustments should be made according to machine rigidity or tooling and the shape of the subject for cutting.②When using ASM Ø20 to Ø32 inserts in a BT30 or BT40 arbor, the use of a combination of modular type holder and modular arbor is

recommended. Furthermore, this is not suitable for cutting where L/Dc ≥ 2.③When using an ASM0710S08R-2 or ASM0712S10R-2 undercut type shank, as a general rule the feed rate per flute (f z) should be

reduced to in addition, 50~70% of the value listed in the standard cutting conditions.④Select the cutting condition of fz=0.3mm/t and less than ap=0.2mm when you use carbide shank ASC10-6.5-114-49/24 withL/Dc≧5.

【Note】

【Note】③

【Note】④

（EDMT070220R）Low-resistance type Insert

（EDMT070220R-T）Standard type Insert

・Tool corner is R2.0 (Unique to high-feed-rate tools to leave no uncut areas.)・Axial direction cutting depth ap should be set to 0.3 mm or less. (ap ≦ 0.3 mm)

L/Dc≧3.5 L/Dc≧3.5

L/Dc≧5

【Note】

Economical insert with 2-corner specifications Special environmentally-friendly, high-hardness, corrosion-resistant surface treatment employed on holder.

φ10

φ20

φ30

φ40

φ50

0

Dc：φ8～32mm

φ60

φ70

Lineup of small diameter sizes from φ8 to φ32. Can be used instead of solid end mills.

JDMT-type inserts for shoulder cutting and EDMT-type inserts for low-depth, high-feed-rate machining can be used in the same holder. Concentration of roughing toolsBy using a modular type holder, a carbide shank and special arbor suitable for the cutting depth and cutting shape can be selected. Broad cutting range

Uses low-resistance free-cutting-shape insert. Compatible with low-powered small-sized machines equivalent to BT-30.

Indexable end mill using advanced small-diameter inserts.Pocket design and 3D-shaped cutting edge enables high-efficient machining of even small diameter sizes.

Technology

02

High-efficient tooling system and selecting a cutting conditions

Cutting programs

2 kinds of insert geometry・High-efficient tooling system to match cutting depth or cutting shape

PureCopper

Carbon steelAlloy steel

Stainless-steelTool steel

Pre-hardened steelHardened steel30～45HRC



JM4160 JP4105JP4120

Easy cutting

Environment

Multi-function

Small dia.

Applications

Features 01 2 types of applications by changing inserts

Roughing SemiFinishing

・ASM enables high-efficient machining according to cutting shape by combined use with various tooling systems.

・Regular R shape is used for corner R. There is no need for an approximate R definition.

・2 kinds of inserts are available: Standard type inserts (T-type) and low-cutting force-type inserts.・Low-resistance cutting force-type inserts reduce cutting force at the corners when pocketting by approximately 10%.1

2

3

Steel Shank typeCarbide ShankModular Arbor

With center through-holefor excellent chip removal

Work material：S50CTools： ASMM0710R-2(φ10-2NT) +ASC10-6.5-114-49Cutting Conditions： vc=160m/min vf=6,115mm/min ap × ae=0.25×5mm Tool overhang 80mm

EDMT-type insert formachining efficiency

JDMT-type insert forhigh-grade machined surfaces

Utilizes rε2.0 cutting edge shape. Does not leave excess at edges. Low cutting resistance

Utilizes Fine Wall (FW) shape. Decrease unevenness of machined surfaces Decrease burring

▼▼

▼▼

Work material：S50CTools： ASM0712S12R-2(φ12-3NT) +ASC10-6.5-114-49Cutting Conditions： vc=200m/min vf=800mm/min ap × ae=5×0.5mm×2 Tool overhang 25mm

Cut

ting

dept

hTo

ol o

verh

ang

leng

th L

/ To

ol d

iam

eter（

L/D

c）

1

2

3

4

5

6

7

8

Features & Cutting Conditions

①Tool tip diameter φD2=φDc - 4(mm)②When performing pocket cutting, be careful of the cutting width (ae) and generated variations due to remaining work 　to cut. (Recommended Cutting width ae=φD2×0.5～0.8(mm))③When cutting the corner area of a vertical wall, setting thetool pathcorner area to R will enable more stable cutting.

rε2.0

φD2

φDC

General-purpose combination Tool overhang length can be minimized. By making effective use of machine tool rigidity, it can be used effectively on small-sized, low-rigidity machines.

Exhibits good machining effects when long tool overhang lengths are necessary.




Shank type holder Modular type holder + Modular arbor Modular type holder + Carbide Shank




①This table shows general conditions for shoulder cutting. Adjustments should be made according to machine rigidity or tooling and the shape of the subject for cutting.②When using ASM Ø20 to Ø32 inserts in a BT30 or BT40 arbor, the use of a combination of modular type holder and modular arbor is

recommended. Furthermore, this is not suitable for cutting where L/Dc ≥ 2.③When using an ASM0710S08R-2 or ASM0712S10R-2 undercut type shank, as a general rule the feed rate per flute (f z) should be

reduced to in addition, 50~70% of the value listed in the standard cutting conditions.④Select the cutting condition of fz=0.3mm/t and less than ap=0.2mm when you use carbide shank ASC10-6.5-114-49/24 withL/Dc≧5.

【Note】

【Note】③

【Note】④

（EDMT070220R）Low-resistance type Insert

（EDMT070220R-T）Standard type Insert

・Tool corner is R2.0 (Unique to high-feed-rate tools to leave no uncut areas.)・Axial direction cutting depth ap should be set to 0.3 mm or less. (ap ≦ 0.3 mm)

L/Dc≧3.5 L/Dc≧3.5

L/Dc≧5

【Note】

Economical insert with 2-corner specifications Special environmentally-friendly, high-hardness, corrosion-resistant surface treatment employed on holder.

φ10

φ20

φ30

φ40

φ50

0

Dc：φ8～32mm

φ60

φ70

Lineup of small diameter sizes from φ8 to φ32. Can be used instead of solid end mills.

JDMT-type inserts for shoulder cutting and EDMT-type inserts for low-depth, high-feed-rate machining can be used in the same holder. Concentration of roughing toolsBy using a modular type holder, a carbide shank and special arbor suitable for the cutting depth and cutting shape can be selected. Broad cutting range

Uses low-resistance free-cutting-shape insert. Compatible with low-powered small-sized machines equivalent to BT-30.

Indexable end mill using advanced small-diameter inserts.Pocket design and 3D-shaped cutting edge enables high-efficient machining of even small diameter sizes.

Technology

03

Features

Strong fields

Grade for machining high-hardness materials PVD Technology JP4105

・Employs an ultra-fine cemented carbide substrate and the new "AJ Coating" to improve wear resistance.

・Excellent wear resistance when machining high hardness materials of 50HRC or higher.

・Hardened steel (50 to 60 HRC): SKD11, SKD61, SKH, SUS420, etc. Work material：SKD11(61HRC)　Tool：ASRS2032-5Insert：EPNW0603TN-8Cutting conditions：vc=80m/min　fz=0.2mm/t　ap×ae=0.5×21mmDry ※Single-flute cutting

Conventional JP4105

00 5 10 15

0.2

0.4

0.6

Cutting length (m)

Flan

k w

ear V

Bm

ax(mm)

Cutting performance

Shank type ASM 07 R-S

ASM0708S10R-1ASM0710S10R-2ASM0710S08R-2ASM0711S10R-2ASM0712S12R-3ASM0712S10R-3ASM0714S12R-3ASM0716S16R-4ASML0716S16R-4ASM0717S16R-4ASM0720S20R-5ASML0720S20R-5ASM0721S20R-5

●●●●●●●●●●●●●

1222333444555

7580808080808090115115105140140

16202020202020255020256020

1010810121012161616202020

8101011121214161617202021

JDMT0702　　REDMT070220R（-T）

Maximumtightening torque

0.5NmSpare screw included

Stock Shape InsertsNo.ofFlute

Size (mm)Item Code

（Fig-1）（Fig-1）（Fig-2）（Fig-2）（Fig-1）（Fig-2）（Fig-2）（Fig-1）（Fig-1）（Fig-2）（Fig-1）（Fig-1）（Fig-2）

Standard typeStandard typeUndercut typeUndercut typeStandard typeUndercut typeUndercut typeStandard typeStandard typeUndercut typeStandard typeStandard typeUndercut type

L L1 ΦDsΦDc

Numeric figure in a circle and alphabetical character comes in a square .

Fig-1Standard type

LL1

φD

c

φD

s

Fig-2Undercut type

LL1

φD

c

φD

s

・Exhibits excellent cutting performance when machining pre-hardened or hardened steel with hardnesses of 30 to 50 HRC.

・Exhibits excellent wear resistance even on difficult-to-cut diecast tool steel or precipitation-hardened stainless steel, or for finishing.

・Employs a fine carbide substrate with an excellent balance between wear resistance and toughness and the new "AJ Coating" to provide improved wear resistance and chipping resistance.

・ Highly versatile with excellent wear resistance and chipping resistance when machining steel materials with hardnesses of 30 to 50 HRC.

Features

Strong fields

PVD Technology Grade for machining pre-hardened or hardened materials JP4120

Modular type Numeric figure in a circle　.ASMM07 R-



※Products for φ8,φ10,φ11 and φ12 will be changed from 20th Feb.2018 to center-through products successively.

【Note】Do not apply lubricants such as grease, etc. to the "contact faces" and "modular screws" of the "modular mill", "special shanks" and "special arbor".

JDMT0702　　R

EDMT070220R（T）-

ASMM0708R-1ASMM0710R-2ASMM0711R-2ASMM0712R-3ASMM0712R-2ASMM0716R-4ASMM0716R-3ASMM0720R-5ASMM0720R-4ASMM0725R-6ASMM0725R-5ASMM0732R-8ASMM0732R-5

●●●

●

●

●

●

●

12

23

2

4

354

6

5

85

2020

2020

20

25

253030

30

30

3030

6.56.5

6.56.5

6.5

8.5

8.510.510.5

12.5

12.5

1717

M6M6

M6M6

M6

M8

M8M10M10

M12

M12

M16M16

9.89.4

9.89.8

9.8

12.8

12.817.817.8

20.8

20.8

28.828.8

5.55.5

5.55.5

5.5

5.5

5.55.55.5

5.5

5.5

66

14.514.5

14.514.5

14.5

17

171919

22

22

2323

55

55

5

8

81010

10

10

1212

77

77

7

10

101515

17

17

2222

8101112121616202025253232

ΦDc Lf ΦD2 M ΦDb L1 L2 C E

φD

c

φD

b

C(E＝Wrench size)

L1

Lf L2

M

Size (mm)

φD

2

Stock InsertsNo.ofFluteItem Code

Features of AJ Coating series

New technology!!

・Employs an AlTi layer with a new composition created by increasing the Al content of conventional layers.

・Excellent wear resistance, chipping resistance, and heat resistance!

・The new layer with high Al content employs a new composition and optimizes the crystal structure to improve wear resistance and chipping resistance!

・Employs a low-friction-effect coating with excellent welding resistance as the top-most surface layer. This reduces welding to the work and decreases cutting force!

Carbide

Coating structure Welding-resistant low-cutting-forcecoating surface layer

Coating withexcellent wear resistance and chipping resistance

Layer structure AJ Coating

Line UpTechnology

JP4120

Cutting performance

Work material：SKD61(40HRC)Tool：ASRT5063R-4Insert：WDNW140520Cutting conditions：vc=90m/min　fz=0.8mm/t　ap×ae=1×44mmDry ※Single-flute cutting

Conventional B

60504030201000

0.2

0.4

0.6

Flan

k w

ear V

Bm

ax(mm)

Cutting length (m)

Conventional A

Conventional C

・Employs a carbide substrate with high toughness and the new "AJ Coating" to improve wear resistance and chipping resistance when machining stainless-steel materials.

・ Employs AJ Coating with excellent welding resistance to reduce the welding to work material that occurs when machining stainless steel materials.

・Provides long tool life for general processing of stainless-steel materials

Features

Strong fields

PVD Technology Grade for machining stainless-steel materials JP4160Cutting performance

Work material：SUS304Tool：ASRS2032R-5Insert：EPMT0603EN-8LFCutting conditions：vc=180m/min　fz=0.5mm/t　ap×ae=0.8×21mmWet ※Single-flute cutting

Conventional

JM4160

0 4 8 120

0.2

0.4

0.6

Cutting length (m)

Flan

k w

ear V

Bm

ax(mm)

04

Features

Strong fields

Grade for machining high-hardness materials PVD Technology JP4105

・Employs an ultra-fine cemented carbide substrate and the new "AJ Coating" to improve wear resistance.

・Excellent wear resistance when machining high hardness materials of 50HRC or higher.

・Hardened steel (50 to 60 HRC): SKD11, SKD61, SKH, SUS420, etc. Work material：SKD11(61HRC)　Tool：ASRS2032-5Insert：EPNW0603TN-8Cutting conditions：vc=80m/min　fz=0.2mm/t　ap×ae=0.5×21mmDry ※Single-flute cutting

Conventional JP4105

00 5 10 15

0.2

0.4

0.6

Cutting length (m)

Flan

k w

ear V

Bm

ax(mm)

Cutting performance

Shank type ASM 07 R-S

ASM0708S10R-1ASM0710S10R-2ASM0710S08R-2ASM0711S10R-2ASM0712S12R-3ASM0712S10R-3ASM0714S12R-3ASM0716S16R-4ASML0716S16R-4ASM0717S16R-4ASM0720S20R-5ASML0720S20R-5ASM0721S20R-5

●●●●●●●●●●●●●

1222333444555

7580808080808090115115105140140

16202020202020255020256020

1010810121012161616202020

8101011121214161617202021

JDMT0702　　REDMT070220R（-T）



Stock Shape InsertsNo.ofFlute

Size (mm)Item Code

（Fig-1）（Fig-1）（Fig-2）（Fig-2）（Fig-1）（Fig-2）（Fig-2）（Fig-1）（Fig-1）（Fig-2）（Fig-1）（Fig-1）（Fig-2）

Standard typeStandard typeUndercut typeUndercut typeStandard typeUndercut typeUndercut typeStandard typeStandard typeUndercut typeStandard typeStandard typeUndercut type

L L1 ΦDsΦDc

Numeric figure in a circle and alphabetical character comes in a square .

Fig-1Standard type

LL1

φD

c

φD

s

Fig-2Undercut type

LL1

φD

c

φD

s

・Exhibits excellent cutting performance when machining pre-hardened or hardened steel with hardnesses of 30 to 50 HRC.

・Exhibits excellent wear resistance even on difficult-to-cut diecast tool steel or precipitation-hardened stainless steel, or for finishing.

・Employs a fine carbide substrate with an excellent balance between wear resistance and toughness and the new "AJ Coating" to provide improved wear resistance and chipping resistance.

・ Highly versatile with excellent wear resistance and chipping resistance when machining steel materials with hardnesses of 30 to 50 HRC.

Features

Strong fields

PVD Technology Grade for machining pre-hardened or hardened materials JP4120

Modular type Numeric figure in a circle　.ASMM07 R-



※Products for φ8,φ10,φ11 and φ12 will be changed from 20th Feb.2018 to center-through products successively.

【Note】Do not apply lubricants such as grease, etc. to the "contact faces" and "modular screws" of the "modular mill", "special shanks" and "special arbor".

JDMT0702　　R

EDMT070220R（T）-

ASMM0708R-1ASMM0710R-2ASMM0711R-2ASMM0712R-3ASMM0712R-2ASMM0716R-4ASMM0716R-3ASMM0720R-5ASMM0720R-4ASMM0725R-6ASMM0725R-5ASMM0732R-8ASMM0732R-5

●●●

●

●

●

●

●

12

23

2

4

354

6

5

85

2020

2020

20

25

253030

30

30

3030

6.56.5

6.56.5

6.5

8.5

8.510.510.5

12.5

12.5

1717

M6M6

M6M6

M6

M8

M8M10M10

M12

M12

M16M16

9.89.4

9.89.8

9.8

12.8

12.817.817.8

20.8

20.8

28.828.8

5.55.5

5.55.5

5.5

5.5

5.55.55.5

5.5

5.5

66

14.514.5

14.514.5

14.5

17

171919

22

22

2323

55

55

5

8

81010

10

10

1212

77

77

7

10

101515

17

17

2222

8101112121616202025253232

ΦDc Lf ΦD2 M ΦDb L1 L2 C E

φD

c

φD

b

C(E＝Wrench size)

L1

Lf L2

M

Size (mm)

φD

2

Stock InsertsNo.ofFluteItem Code

Features of AJ Coating series

New technology!!

・Employs an AlTi layer with a new composition created by increasing the Al content of conventional layers.

・Excellent wear resistance, chipping resistance, and heat resistance!

・The new layer with high Al content employs a new composition and optimizes the crystal structure to improve wear resistance and chipping resistance!

・Employs a low-friction-effect coating with excellent welding resistance as the top-most surface layer. This reduces welding to the work and decreases cutting force!

Carbide

Coating structure Welding-resistant low-cutting-forcecoating surface layer

Coating withexcellent wear resistance and chipping resistance

Layer structure AJ Coating

Line UpTechnology

JP4120

Cutting performance

Work material：SKD61(40HRC)Tool：ASRT5063R-4Insert：WDNW140520Cutting conditions：vc=90m/min　fz=0.8mm/t　ap×ae=1×44mmDry ※Single-flute cutting

Conventional B

60504030201000

0.2

0.4

0.6

Flan

k w

ear V

Bm

ax(mm)

Cutting length (m)

Conventional A

Conventional C

・Employs a carbide substrate with high toughness and the new "AJ Coating" to improve wear resistance and chipping resistance when machining stainless-steel materials.

・ Employs AJ Coating with excellent welding resistance to reduce the welding to work material that occurs when machining stainless steel materials.

・Provides long tool life for general processing of stainless-steel materials

Features

Strong fields

PVD Technology Grade for machining stainless-steel materials JP4160Cutting performance

Work material：SUS304Tool：ASRS2032R-5Insert：EPMT0603EN-8LFCutting conditions：vc=180m/min　fz=0.5mm/t　ap×ae=0.8×21mmWet ※Single-flute cutting

Conventional

JM4160

0 4 8 120

0.2

0.4

0.6

Cutting length (m)

Flan

k w

ear V

Bm

ax(mm)

●：Stocked Items. 　No Mark:Manufactured upon request only.05

Inserts

Line Up

Parts

■ Carbide Shank

The Shanks for Modular Mill

Shape

Cutter body

240-140 0.5 104-T6 P-37ASM（L）07　　S　　R-ASMM07　　R-

Parts Clamp screw Screw Driver Screw anti-seizure agent

Fig-4Fig-3 EDMT070220R（-T）Insert with 2.0mm corner R for small-depth, high-feed-rate cutting（apmax=0.3mm）

JDMT07020　RInsert with 5mm cutting edge for shoulder cutting（apmax=5.0mm）

B

A

rε

T

B

A

rε

T

Fastening torque（N・m）

JDMT070202R JDMT070204R JDMT070208R EDMT070220R-T EDMT070220R

PTH30E

A B Trε

●●●

●●●●●

●●●●●

●●●●●

●●●

6.46.46.46.46.4

4.34.34.34.34.3

2.452.452.452.52.5

0.20.40.822

Fig-3

SD5010

JP4105

PMKNH

JP4120

JM4160

：General cutting, First recommended

：General cutting, Second recommended

ToleranceClass

MFig-4 Standard type

Fig-4 Low-resistance type

TH

Coa

ted

AJ

Coa

ted

DLC

C

oate

dStated dimensions for L3, Lf, and L1 are with ASM attached.

【Note】①Commercial milling chucks or shrink-fit holders can be used.②Please note that the dimensions for L3, Lf, and L1 may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM etc.③For ※3, since the cutter diameter is larger than the shank diameter, there is no interference at the shank.④For ※4, since the cutter diameter is smaller than the shank diameter, interference occurs at the shank.

LL3MφD2 L2Lf L1 Rs φD3 φD4φDS

○

○

○

○

○

○

○

φ16

φ20

φ20

φ25

　

φ25

φ32

φ32

B

B

B

C

C

C

C

ASC12-6.5-74-24ZASC12-6.5-94-44ZASC12-6.5-129-64ZASC12-6.5-129-24ZASC16-8.5-95-30ZASC16-8.5-120-55ZASC16-8.5-140-75ZASC16-8.5-160-95ZASC16-8.5-160-30ZASC20-10.5-120-50ZASC20-10.5-170-90ZASC20-10.5-220-120ZASC20-10.5-270-150ZASC20-10.5-220-50ZASC20-10.5-270-50ZASC25-12.5-145-65ASC25-12.5-215-115ASC25-12.5-265-145ASC25-12.5-315-195ASC25-12.5-265-65ASC25-12.5-315-65ASC32-17-160-80ASC32-17-210-110ASC32-17-260-140ASC32-17-310-190ASC32-17-360-240ASC32-17-260-80ASC32-17-310-80ASC32-17-360-80

●●●●●●●●●●●●●●●●●●●●●●●●●●●●●

8.5

10.5

10.5

12.5

12.5

17

17

120145165185185150200250300250300175245295345295345190240290340390290340390

M8

Ｍ10

Ｍ10

Ｍ12

Ｍ12

Ｍ16

Ｍ16

16

20

20

25

25

32

32

6565656513070801001201702208010012012020025080100120120120180230280

30557595305090120150

50

65115145195

65

80110140190240

80

25

30

30

30

30

30

30

95120140160160120170220270220270145215265315265315160210260310360260310360

15.5

19.5

19.5

　

－

－

－

－

55801001205580120150180

80

95145175225

95

110140170220270

110

14.5

18.5

18.5

23

23

28

28

○　

○

（φ8）※4 φ10 （φ11）※3（φ12）※3

（φ8）※4（φ10）※4（φ11）※4φ12

A

B

ASC10-6.5-74-24ZASC10-6.5-84-34ZASC10-6.5-114-49ZASC10-6.5-114-24Z

●●●●

6.5

6.5

7484

114

7494

129

94104

134

94114

149

2434492424446424

4454694444648444

50506590505065105

M6

M6

20

20

9.3

11

10

12

－

11.5

Size (mm)Item Code

Sto

ck

TypeCutterbody

With/withoutair hole

L3

LL1

L2

φD

s

φD

2 M

φD

3

C type

RsL f

B type

RsL f

L3

LL1

L2

M

φD

s

φD

2

φD

4

φD

3

φD

2

L 3

LL1

L2 RsL f

M

φD

s

A type

φD

3

Size (mm)

Item Code Shape

Carbon steelsSUS, etc.FC・FCDAiuminum AlloyHardened steels

●：Stocked Items. 　No Mark:Manufactured upon request only.06

Inserts

Line Up

Parts

■ Carbide Shank


Shape

Cutter body

240-140 0.5 104-T6 P-37ASM（L）07　　S　　R-ASMM07　　R-

Parts Clamp screw Screw Driver Screw anti-seizure agent

Fig-4Fig-3 EDMT070220R（-T）Insert with 2.0mm corner R for small-depth, high-feed-rate cutting（apmax=0.3mm）

JDMT07020　RInsert with 5mm cutting edge for shoulder cutting（apmax=5.0mm）

B

A

rε

T

B

A

rε

T

Fastening torque（N・m）

JDMT070202R JDMT070204R JDMT070208R EDMT070220R-T EDMT070220R

PTH30E

A B Trε

●●●

●●●●●

●●●●●

●●●●●

●●●

6.46.46.46.46.4

4.34.34.34.34.3

2.452.452.452.52.5

0.20.40.822

Fig-3

SD5010

JP4105

PMKNH

JP4120

JM4160

：General cutting, First recommended

：General cutting, Second recommended

ToleranceClass

MFig-4 Standard type

Fig-4 Low-resistance type

TH

Coa

ted

AJ

Coa

ted

DLC

C

oate

d

Stated dimensions for L3, Lf, and L1 are with ASM attached.

【Note】①Commercial milling chucks or shrink-fit holders can be used.②Please note that the dimensions for L3, Lf, and L1 may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM etc.③For ※3, since the cutter diameter is larger than the shank diameter, there is no interference at the shank.④For ※4, since the cutter diameter is smaller than the shank diameter, interference occurs at the shank.

LL3MφD2 L2Lf L1 Rs φD3 φD4φDS

○

○

○

○

○

○

○

φ16

φ20

φ20

φ25

　

φ25

φ32

φ32

B

B

B

C

C

C

C

ASC12-6.5-74-24ZASC12-6.5-94-44ZASC12-6.5-129-64ZASC12-6.5-129-24ZASC16-8.5-95-30ZASC16-8.5-120-55ZASC16-8.5-140-75ZASC16-8.5-160-95ZASC16-8.5-160-30ZASC20-10.5-120-50ZASC20-10.5-170-90ZASC20-10.5-220-120ZASC20-10.5-270-150ZASC20-10.5-220-50ZASC20-10.5-270-50ZASC25-12.5-145-65ASC25-12.5-215-115ASC25-12.5-265-145ASC25-12.5-315-195ASC25-12.5-265-65ASC25-12.5-315-65ASC32-17-160-80ASC32-17-210-110ASC32-17-260-140ASC32-17-310-190ASC32-17-360-240ASC32-17-260-80ASC32-17-310-80ASC32-17-360-80

●●●●●●●●●●●●●●●●●●●●●●●●●●●●●

8.5

10.5

10.5

12.5

12.5

17

17

120145165185185150200250300250300175245295345295345190240290340390290340390

M8

Ｍ10

Ｍ10

Ｍ12

Ｍ12

Ｍ16

Ｍ16

16

20

20

25

25

32

32

6565656513070801001201702208010012012020025080100120120120180230280

30557595305090120150

50

65115145195

65

80110140190240

80

25

30

30

30

30

30

30

95120140160160120170220270220270145215265315265315160210260310360260310360

15.5

19.5

19.5

　

－

－

－

－

55801001205580120150180

80

95145175225

95

110140170220270

110

14.5

18.5

18.5

23

23

28

28

○　

○

（φ8）※4 φ10 （φ11）※3（φ12）※3

（φ8）※4（φ10）※4（φ11）※4φ12

A

B

ASC10-6.5-74-24ZASC10-6.5-84-34ZASC10-6.5-114-49ZASC10-6.5-114-24Z

●●●●

6.5

6.5

7484

114

7494

129

94104

134

94114

149

2434492424446424

4454694444648444

50506590505065105

M6

M6

20

20

9.3

11

10

12

－

11.5

Size (mm)Item Code

Sto

ck

TypeCutterbody


L3

LL1

L2

φD

s

φD

2 M

φD

3

C type

RsL f

B type

RsL f

L3

LL1

L2

M

φD

s

φD

2

φD

4

φD

3

φD

2L 3

LL1

L2 RsL f

M

φD

s

A type

φD

3

Size (mm)

Item Code Shape

Carbon steelsSUS, etc.FC・FCDAiuminum AlloyHardened steels

●：Stocked Items. 07

Line Up

C type (Tapered neck)

A type B type

D type

φD

s

φD

3

φD

2

M

L 3

LL 1

L f L 2

L 3

LL 1

L 2L f

φD

s

φD

2

M

φD

s

φD

2

M

L 3

LL 1

L f

L 3

L

L 1L 2

L f

M

φD

s

φD

2

φD

3

φD

3

φD

4ℓsℓs

ℓs

ℓs


The Arbor for Modular Mill

■ Steel Shank ■ BT30

■ BT40

■ HSK-A63

LL3MφD2 L4Lf L1 φD3 φDs θn


φ8（22°） φ10（21°） φ11（20°） φ12（20°）φ8（15°） φ10（14°） φ11（14°） φ12（14°）φ8（11°） φ10（11°） φ11（11°） φ12（10°）φ16（18°）φ16（12°）φ16（9°）φ20（16°）φ20（11°）φ20（8°）φ25(14°) φ25(9°) φ25(7°) φ32(11°) φ32(7°) φ32(5°)

HSK-A63-10.5-30-18HSK-A63-10.5-70-18HSK-A63-10.5-120-18HSK-A63-12.5-35-21 HSK-A63-12.5-65-21 HSK-A63-12.5-115-21 HSK-A63-17-40-28 HSK-A63-17-60-28 HSK-A63-17-110-28

●●●●●●●●●

○

○

○

10.5

12.5

17

M10

M12×1.75

M16×2

3°3°3°3°3°3°3°3°3°

-1010-1010-1010

304040304040304040

307012035651154060110

6010015065951457090140

30

30

30

φ20（21°）φ20（13°）φ20（9°）φ25(18°)φ25(12°)φ25(8°)φ32(16°)φ32(13°)φ32(8°)

L4 L1

18

21

28

φD3

20.82530.224.327.532.731.833.939.2

φDsLfLL3φD2 M

Stated dimensions for L3, Lf, L1 and θκ are with ASM attached.



【Note】Please note that the dimensions for L3, Lf, L1 and θκ may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM, etc.

※For neck section, additional machining to user specifications is possible.


【Note】Please note that the dimensions for L3, Lf, L1 and θκ may be different when attached to other modular-type holders such as ASRM, ARM, ABPFM, ARPFM, BCFM, etc.



-

○

○

○

○

BT30-6.5-30-9.7BT30-6.5-55-9.7BT30-6.5-80-9.7BT30-8.5-25-15BT30-8.5-50-15BT30-8.5-75-15BT30-10.5-20-18BT30-10.5-45-18BT30-10.5-70-18BT30-12.5-15-21 BT30-12.5-40-21 BT30-12.5-65-21 BT30-17-10-28BT30-17-35-28BT30-17-60-28

6.5

8.5

10.5

12.5

17

507510050751005075100457095406590

M6

M8

M10

M12

M16

17.0° 9.6° 6.2°20.6°10.6° 6.6°29.5°13.7° 8.1°32.3°17.6°9.8°31°13.5°6.8°

9.7

15

18

21

28

5101051010510105101051010

20

25

30

30

30

305580255075204570154065103560

253030303535354040354040354040

25

30

35

40

40

φ8（30°） φ10（29°） φ11（28°） φ12（28°）φ8（21°） φ10（20°） φ11（20°） φ12（20°）φ8（16°） φ10（16°） φ11（15°） φ12（15°）φ16（26°）φ16（18°）φ16（14°）φ20（24°）φ20（17°）φ20（13°）φ25(24°)φ25(16°)φ25(12°)φ32(22°)φ32(14°)φ32(10°)

-

○

○

○

○

BT40-6.5-30-9.7BT40-6.5-55-9.7BT40-6.5-80-9.7BT40-8.5-25-15BT40-8.5-50-15BT40-8.5-75-15BT40-10.5-20-18BT40-10.5-45-18BT40-10.5-70-18BT40-12.5-15-21BT40-12.5-40-21BT40-12.5-65-21BT40-17-10-28BT40-17-35-28BT40-17-60-28

6.5

8.5

10.5

12.5

17

507510050751005075100457095406590

M6

M8

M10

M12

M16

17.0°9.6°6.2°20.6°10.6°6.6°29.5°13.7°8.1°32.3°17.6°9.8°45°21.8°11.3°

9.7

15

18

21

28

5101051010510105101051010

20

25

30

30

30

305580255075204570154065103560

253030303535354040354040354040

25

30

35

40

48

θn

--○○○○

AS10-6.5-74-0AS12-6.5-84-4AS16-8.5-95-15AS20-10.5-100-20AS25-12.5-115-35AS32-17-110-30

●●●●●●

φD2

6.5 6.5 8.510.512.517

L3M

Ｍ6Ｍ6Ｍ8Ｍ10Ｍ12Ｍ16

L Lf L2 L1 φD3 φDs

φ10φ11 φ12φ16φ20φ25φ32

ABCDDD

94104120130145140

748495100115110

202025303030

-　415203530

202440506560

748080808080

-　1114.5182328

101216202532

φD4

--15.5---

【Note】①Commercial milling chucks can be used.②Please note that the dimensions for L3, Lf, and L1 may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM, etc.

ℓs

M

θn

θκLL3

26

φ63

L4

L1

Lf

φD

2

HSK‐A63

Coolant Pipe

φD

s

φD

3

L4L1

θn

θκ

L3 22 48.4L

M

φD

2

Lf

BT30

φ46

φD

s

φD

3

θn BT40

L3 27

L1

65.4L

M

φD

2

L4Lf

φ63

φD

s

φD

3

θκ


Item code Stock CutterbodyType


Cutterbody(θκ)


Size(mm)

Item code StockSize(mm)

Cutter body(θκ)With/

withoutair hole

Item code

Stoc

k Size(mm)


withoutair hole

Item code

Stoc

k Size(mm)

●：Stocked Items.08

Line Up

C type (Tapered neck)

A type B type

D type

φD

s

φD

3

φD

2

M

L 3

LL 1

L f L 2

L 3

LL 1

L 2L f

φD

s

φD

2

M

φD

s

φD

2

M

L 3

LL 1

L f

L 3

L

L 1L 2

L f

M

φD

s

φD

2

φD

3

φD

3

φD

4

ℓsℓs

ℓs

ℓs


The Arbor for Modular Mill

■ Steel Shank ■ BT30

■ BT40

■ HSK-A63



φ8（22°） φ10（21°） φ11（20°） φ12（20°）φ8（15°） φ10（14°） φ11（14°） φ12（14°）φ8（11°） φ10（11°） φ11（11°） φ12（10°）φ16（18°）φ16（12°）φ16（9°）φ20（16°）φ20（11°）φ20（8°）φ25(14°) φ25(9°) φ25(7°) φ32(11°) φ32(7°) φ32(5°)

HSK-A63-10.5-30-18HSK-A63-10.5-70-18HSK-A63-10.5-120-18HSK-A63-12.5-35-21 HSK-A63-12.5-65-21 HSK-A63-12.5-115-21 HSK-A63-17-40-28 HSK-A63-17-60-28 HSK-A63-17-110-28

●●●●●●●●●

○

○

○

10.5

12.5

17

M10

M12×1.75

M16×2

3°3°3°3°3°3°3°3°3°

-1010-1010-1010

304040304040304040

307012035651154060110

6010015065951457090140

30

30

30

φ20（21°）φ20（13°）φ20（9°）φ25(18°)φ25(12°)φ25(8°)φ32(16°)φ32(13°)φ32(8°)

L4 L1

18

21

28

φD3

20.82530.224.327.532.731.833.939.2

φDsLfLL3φD2 M




【Note】Please note that the dimensions for L3, Lf, L1 and θκ may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM, etc.






-

○

○

○

○

BT30-6.5-30-9.7BT30-6.5-55-9.7BT30-6.5-80-9.7BT30-8.5-25-15BT30-8.5-50-15BT30-8.5-75-15BT30-10.5-20-18BT30-10.5-45-18BT30-10.5-70-18BT30-12.5-15-21 BT30-12.5-40-21 BT30-12.5-65-21 BT30-17-10-28BT30-17-35-28BT30-17-60-28

6.5

8.5

10.5

12.5

17

507510050751005075100457095406590

M6

M8

M10

M12

M16

17.0° 9.6° 6.2°20.6°10.6° 6.6°29.5°13.7° 8.1°32.3°17.6°9.8°31°13.5°6.8°

9.7

15

18

21

28

5101051010510105101051010

20

25

30

30

30

305580255075204570154065103560

253030303535354040354040354040

25

30

35

40

40

φ8（30°） φ10（29°） φ11（28°） φ12（28°）φ8（21°） φ10（20°） φ11（20°） φ12（20°）φ8（16°） φ10（16°） φ11（15°） φ12（15°）φ16（26°）φ16（18°）φ16（14°）φ20（24°）φ20（17°）φ20（13°）φ25(24°)φ25(16°)φ25(12°)φ32(22°)φ32(14°)φ32(10°)

-

○

○

○

○

BT40-6.5-30-9.7BT40-6.5-55-9.7BT40-6.5-80-9.7BT40-8.5-25-15BT40-8.5-50-15BT40-8.5-75-15BT40-10.5-20-18BT40-10.5-45-18BT40-10.5-70-18BT40-12.5-15-21BT40-12.5-40-21BT40-12.5-65-21BT40-17-10-28BT40-17-35-28BT40-17-60-28

6.5

8.5

10.5

12.5

17

507510050751005075100457095406590

M6

M8

M10

M12

M16

17.0°9.6°6.2°20.6°10.6°6.6°29.5°13.7°8.1°32.3°17.6°9.8°45°21.8°11.3°

9.7

15

18

21

28

5101051010510105101051010

20

25

30

30

30

305580255075204570154065103560

253030303535354040354040354040

25

30

35

40

48

θn

--○○○○

AS10-6.5-74-0AS12-6.5-84-4AS16-8.5-95-15AS20-10.5-100-20AS25-12.5-115-35AS32-17-110-30

●●●●●●

φD2

6.5 6.5 8.510.512.517

L3M

Ｍ6Ｍ6Ｍ8Ｍ10Ｍ12Ｍ16

L Lf L2 L1 φD3 φDs

φ10φ11 φ12φ16φ20φ25φ32

ABCDDD

94104120130145140

748495100115110

202025303030

-　415203530

202440506560

748080808080

-　1114.5182328

101216202532

φD4

--15.5---

【Note】①Commercial milling chucks can be used.②Please note that the dimensions for L3, Lf, and L1 may be different when attached to other modular-type holders such as ASRM, ARM, AHUM, ARPFM, BCFM, ABPFM, etc.

ℓs

M

θn

θκLL3

26

φ63

L4

L1

Lf

φD

2

HSK‐A63

Coolant Pipe

φD

s

φD

3

L4L1

θn

θκ

L3 22 48.4L

M

φD

2

Lf

BT30

φ46

φD

s

φD

3

θn BT40

L3 27

L1

65.4L

M

φD

2

L4Lf

φ63

φD

s

φD

3

θκ


Item code Stock CutterbodyType


Cutterbody(θκ)


Size(mm)

Item code StockSize(mm)


withoutair hole

Item code

Stoc

k Size(mm)


withoutair hole

Item code

Stoc

k Size(mm)

No Mark:Manufactured upon request only. 09

ラインナップLine UpLine Up

About the rigidity valueS

1kgf

(μm)

(9.8N)

S

■ Standard accessories ■ Caution

● Coolant duct(HSK)

● The Modular Mill is not a standard accessory. ● Pull stud is not a standard accesorry.● Please check your Modular Mills for conformance to the dimensions.

A rigidity value represents the amount of deflection for the entire holder and tool when a bending load of 1 kgf (9.8 N) is applied to the tip of the tool. The smaller the numerical value is, the higher the rigidity and the more accurate the machining.

Item Code

kcotS

Size(mm)Weight(kg)

Rigidity value

（μm）SG φD H H1 φC L M L1 φC1 φC2

BT5

0

BT50-RSG10-200-M25

M1010.5 22 6.5 19

200 25 175

36 38

5.6 0.5BT50-RSG10-165-M50 165

50115 4.4 0.8

BT50-RSG10-195-M50 195 145 4.7 0.9BT50-RSG10-225-M50 225 175 5.7 1.0BT50-RSG10-190-M75 190

75115 4.5 1.6


100115 4.5 2.7


120115 4.6 3.9


140115 4.7 5.5

BT50-RSG10-285-M140 285 145 5.0 5.8BT50-RSG10-315-M140 315 175 6.0 5.8BT50-RSG12-140-M25

M1212.5 22 6 24

14025115

43 45

4.6 0.2BT50-RSG12-170-M25 170 145 5.0 0.3BT50-RSG12-200-M25 200 175 5.8 0.4BT50-RSG12-165-M50 165

50115 4.7 0.5


75115 4.9 0.8


100115 5.0 1.3


125115 5.2 2.1


150115 5.3 3.0


175115 5.5 4.2


M16 17 25 6 29

14025115

52 54


50115 5.0 0.3


75115 5.3 0.5


100115 5.5 0.7


125115 5.7 1.1


150115 5.9 1.6


175115 6.1 2.2


200115 6.3 3.0


225115 6.5 3.9

BT50-RSG16-370-M225 370 145 7.1 4.1BT50-RSG16-400-M225 400 175 8.3 4.2

A63

A63-RSG8-105-M25M8 8.5 18 6.5 15

10525

8030 32

1.3 0.6A63-RSG8-135-M25 135 110 1.4 0.7A63-RSG8-165-M25 165 140 1.9 0.8

Item Code

kcotS

Size(mm)Weight(kg)

Rigidity value


BT4

0

BT40-RSG8-105-M25

M8 8.5 18 6.5 15

10525

80

30 32


5080 1.4 1.5


7580 1.5 3.1


90140 1.5 4.5


10580 1.6 6.2


M1010.5 22 6.5 19

12525100

36 38


50100 1.9 0.8


75100 2.0 1.6


100100 2.0 2.7


120100 2.1 4.0


M1212.5 22 6 24

12525100

43 45


50100 2.1 0.5


75100 2.3 0.9


100100 2.4 1.4


125100 2.6 2.1


M16 17 25 6 29

125 25

100 52 54

2.6 0.2BT40-RSG16-150-M50 150 50 2.8 0.3BT40-RSG16-175-M75 175 75 3.0 0.5BT40-RSG16-200-M100 200 100 3.2 0.8BT40-RSG16-225-M125 ※ 225 125 3.4 1.2

BT5

0

BT50-RSG8-120-M25

M8 8.5 18 6.5 15

12025

95

30 32


5095 4.0 1.5


7595 4.1 3.1


90155 4.9 4.4


10595 4.2 6.2

BT50-RSG8-230-M105 230 125 4.5 6.6BT50-RSG8-260-M105 260 155 5.0 6.6BT50-RSG10-140-M25 M1010.5 22 6.5 19 140 25 115 36 38 4.3 0.4BT50-RSG10-170-M25 170 145 4.6 0.5

5L1

φC2

ML

φC1 φC

Dimensions for the Modular Mill mounting

φD

H1

10

G

H ■Caution●Some of the indexable end mills cannot be attached to the RED

screw arbor. Please check your indexable end mills for conformance to the dimensions, or please contact MOLDINO Tool Engineering, Ltd.

●Because cutting resistance is greater than the tool holder connection force associated with the machine spindle, please reduce the recommended cutting conditions by 50% for the RED screw arbors marked with ※. Otherwise, the tool holder shank may experience fretting corrosion or fall out of the machine spindle.

Red screw arbor

No mark：Manufactured upon request only. Delivery time is about ten days after an order received.10

無印：受注生産品です。No mark：Manufactured upon request only. 納期は受注後 10 日程度になります。Delivery time is about ten days after an order received.

ラインナップLine UpLine Up

About the rigidity valueS

1kgf

(μm)

(9.8N)

S

■ Standard accessories ■ Caution

● Coolant duct(HSK)

● The Modular Mill is not a standard accessory. ● Pull stud is not a standard accesorry.● Please check your Modular Mills for conformance to the dimensions.

A rigidity value represents the amount of deflection for the entire holder and tool when a bending load of 1 kgf (9.8 N) is applied to the tip of the tool. The smaller the numerical value is, the higher the rigidity and the more accurate the machining.

Item Code

kcotS

Size(mm)Weight(kg)

Rigidity value


A63

A63-RSG8-130-M50

M8 8.5 18 6.5 15

13050

80

30 32

1.3 1.5A63-RSG8-160-M50 160 110 1.4 1.7A63-RSG8-190-M50 190 140 1.9 1.7A63-RSG8-155-M75 155

7580 1.4 3.1

A63-RSG8-185-M75 185 110 1.5 3.4A63-RSG8-215-M75 215 140 2.0 3.4A63-RSG8-170-M90 170

9080 2.0 4.4


10580 1.5 6.2

A63-RSG8-215-M105 215 110 1.6 6.6A63-RSG8-245-M105 245 140 2.1 6.7A63-RSG10-125-M25

M1010.5 22 6.5 19

12525100

36 38


50100 1.7 0.8


75100 1.8 1.6


100100 1.8 2.7


120100 1.9 4.0


140100 2.0 5.6


M1212.5 22 6 24

12525100

43 45


50100 2.0 0.5


75100 2.2 0.9


100100 2.3 1.4


125100 2.5 2.1


150100 2.6 3.1


M16 17 25 6 29

140 25

115 52 54

2.8 0.2A63-RSG16-165-M50 165 50 3.2 0.4A63-RSG16-190-M75 190 75 3.6 0.6A63-RSG16-215-M100 215 100 2.8 0.9A63-RSG16-240-M125 ※ 240 125 2.8 1.3A63-RSG16-265-M150 ※ 265 150 3.2 1.9A63-RSG16-290-M175 ※ 290 175 3.6 2.5

A10

0

A100-RSG8-120-M25

M8 8.5 18 6.5 15

12025

95

30 32


5095 2.6 1.5


7595 2.7 3.1


9095 2.7 4.5

A100-RSG8-215-M90 215 125 3.0 4.9A100-RSG8-245-M90 245 155 3.5 4.8A100-RSG8-200-M105 200 105 95 2.8 6.3

Item Code

kcotS

Size(mm)Weight(kg)

Rigidity value


A10

0

A100-RSG8-230-M105 M8 8.5 18 6.5 15 230 105 125 30 32 3.1 6.7A100-RSG8-260-M105 260 155 3.6 6.6A100-RSG10-140-M25

M10 10.5 22 6.5 19

14025115

36 38


50115 3.2 0.8


75115 3.3 1.6


100115 3.3 2.7


120115 3.4 4.0


140115 3.5 5.6


M12 12.5 22 6 24

14025115

43 45


50115 3.5 0.5


75115 3.7 0.8


100115 3.8 1.4


125115 4.0 2.1


150115 4.1 3.0


175115 4.3 4.3


M16 17 25 6 29

14025115

52 54


50115 4.2 0.3


75115 4.5 0.5


100115 4.7 0.8


125115 4.9 1.1


150115 5.1 1.6


175115 5.3 2.2


200115 5.5 3.0


225115 5.7 3.9

A100-RSG16-370-M225 370 145 6.3 4.2A100-RSG16-400-M225 400 175 7.4 4.2

11

Recommended Cutting Conditions

Side Milling standard cutting conditions for EDMT-type inserts： Low cutting depth, high feed rate Side Milling standard cutting conditions for JDMT-type inserts

4,780120～2,870～0.60.3～33

4,380110～2,630～0.60.3～32

3,58090

～1,430～0.40.3～31

3,820120～4,590～0.60.3～57

3,500110～4,200～0.60.3～56

2,87090

～2,290～0.40.3～53

3,180120～5,730～0.60.3～7122,920110～5,260～0.60.3～7112,39090

～2,870～0.40.3～76

2,730120～6,550～0.80.3～8162,500110～6,010～0.80.3～8142,05090

～3,690～0.60.3～89

2,390120～7,640～0.80.3～10232,190110～7,010～0.80.3～10211,79090

～4,300～0.60.3～1013

1,910120～7,640～0.80.3～11251,750110～7,010～0.80.3～11231,43090

～4,300～0.60.3～1114

1,530120～7,340～0.80.3～17371,400110～6,730～0.80.3～17341,15090

～4,130～0.60.3～1721

1,190120～7,640～0.80.3～22501,090110～7,010～0.80.3～224690090

～4,300～0.60.3～2228

※JP4120(vc=100～180)

JP4120(vc=100～160)

JP4120(vc=80～120)

JM4160JP4120(vc=80～120)

JP4105　JP4120(vc=60～100)

JP4120(vc=120～220)

Dc Tool dia.

Carbon SteelsAlloy SteelsDie Tool SteelsS-C SCM SKD SKT<30HRC

Pre-Harden SteelsAlloy SteelsDie Tool SteelsSCM SKD SKT30～40HRC


Hardened Steels50～60HRC

Stainless SteelsSUS

Cast IronFC FCD

n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)

5,970150～3,580～0.60.3～33

3,580 90

～1,430 ～0.4 0.3 ～3 1

2,870 90

～2,290 ～0.4 0.3 ～5 3

2,390 90

～2,870 ～0.4 0.3 ～7 6

2,050 90

～3,690 ～0.6 0.3 ～8 9

1,790 90

～4,300 ～0.6 0.3 ～10 13

1,430 90

～4,300 ～0.6 0.3 ～11 14

1,150 90

～4,130 ～0.6 0.3 ～17 21

900 90

～4,300 ～0.6 0.3 ～22 28

2,390 60 ～720 ～0.3 0.2 ～3 0.4

1,910 60

～1,150 ～0.3 0.2 ～5 1

1,590 60

～1,430 ～0.3 0.2 ～7 2

1,360 60

～1,630 ～0.4 0.2 ～8 2

1,190 60

～1,900 ～0.4 0.2 ～10 3

950 60

～1,900 ～0.4 0.2 ～11 3

760 60

～1,820 ～0.4 0.2 ～17 6

600 60

～1,900 ～0.4 0.2 ～22 8

4,780150～5,730～0.60.3～59

3,980150～7,170～0.60.3～715

3,410150～8,190～0.80.3～820

2,990150～9,550～0.80.3～1029

2,390150～9,550～0.80.3～1132

1,910150～9,170～0.80.3～1747

1,490150～9,550～0.80.3～2263

①Use the appropriate coolant for the work material and machining shape.②These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions.③For slotting or ramping, feed rate should be set to 70% as general criteria. ④Ensure to index the insert at the correct time to ensure safety of the tool-body.⑤The evacuation of swarf can cause burns, cuts or damage to the eyes please ensue the correct safety cover is fitted around the machine, and necessary

personal protection equipment is worn by the machine operator.⑥Due to fire risks do not use neat cutting oil as a coolant.⑦When using an ASM0710S08R-2 or ASM0712S10R-2 undercut type shank, as a general rule the feed rate per flute (f z) should be reduced to 50~70% of the

value listed in the standard cutting conditions.

【Note】

（mm）

φ8

10～15

φ10

6.6°

13～19

φ12

4.1°

17～23

φ14

2.9°

21～27

φ16

2.2°

25～31

φ17

2.0°

27～33

φ20

1.4°

33～39

φ32

57～63

φ21

1.3°

35～41

φ25

1°

43～49

EDMT0702

Since the cutting flute do not extend to the center, there are limitations on the ramp angle and hole diameter, but as shown below, cutting by direct milling without a pilot hole is possible for ramping and helical milling.

①Use the appropriate coolant for the work material and machining shape.②These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions.③For hole diameters outside the ranges listed above, a pilot hole should be drilled before milling.

【Note】

Ramping

Ramp angle θ Helical hole diameter

Helical millingRamping


Helical millingLess than 0.5 °

φ8

10～15

φ10

6.6°

13～19

φ12

4.1°

17～23

φ14

2.9°

21～27

φ16

2.2°

25～31

φ17

2.0°

27～33

φ20

1.4°

33～39

φ32

57～63

φ21

1.3°

35～41

φ25

1°

43～49

Dc Tool dia.

Inserts

Hole Dia

JDMT0702

Recommended θDc Tool dia.

Inserts

Hole Dia

Recommended θLess than 1 °

※Red indicates primary recommended grade.

ae

ap

ae

ap

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

ap(mm)ae(mm)n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

ap(mm)ae(mm)

7,1701805000.075,9701503600.064,7801202900.06

5,7301808000.074,7801505700.063,8201204600.06

4,7801801,0000.073,9801507200.063,1801205700.06

4,0901808600.073,4101506100.062,7301204900.06

3,5801801,0000.072,9901507200.062,3901205700.06

2,8701801,0000.072,3901507200.061,9101205700.06

2,2901809600.071,9101506900.061,5301205500.06

1,7901801,0000.071,4901507200.061,1901205700.06

※JP4120PTH30E

JP4120PTH30E

JP4120PTH30E

JP4120

JM4160PTH30EJP4120

JP4120PTH30E

JP4105JP4120

SD5010PTH30EJP4120

It is make standard that the depth cut ap and the cutting width ae be as shown in Tool Overhang (OH) and Cutting Region on the next page.Work Hardness > Please use the conditions in the table as a guideline for the cut depth ap and width ae of 40HRC.

Aluminum Alloy(wet condition)

4,7801202900.065,9701504200.07

3,580 902200.062

0.05Dc

2,860 903400.062

0.05Dc

2,390 904300.062

0.05Dc

2,050 903700.062

0.05Dc

1,790 904300.062

0.05Dc

1,430 904300.062

0.05Dc

1,150 904100.062

0.05Dc

900 904300.062

0.05Dc 3,820

1204600.064,7801506700.07

3,1801205700.063,9801508400.07

2,7301204900.063,4101507200.07

2,3901205700.062,9901508400.07

1,9101205700.062,3901508400.07

1,5301205500.061,9101508000.07

1,1901205700.061,4901508400.07

vc=200～500

fz=0.04～0.12

vc=130～180

fz=0.04～0.10

vc=100～150

fz=0.04～0.09

vc=100～150

fz=0.04～0.07

vc=80～120

fz=0.04～0.07

vc=60～100

fz=0.04～0.07

vc=130～180

fz=0.04～0.07

vc=150～200

fz=0.04～0.09

2,390 601400.062

0.05Dc

1,910 602300.062

0.05Dc

1,590 602900.062

0.05Dc

1,360 602400.062

0.05Dc

1,190 602900.062

0.05Dc

950602900.062

0.05Dc

760602700.062

0.05Dc

600602900.062

0.05Dc

11,9403009600.08

9,5503001,5300.08

7,9603001,9100.08

6,8203001,6400.08

5,9703001,9100.08

4,7803001,9100.08

3,8203001,8300.08

2,9903001,9100.08

（mm）

FW形状


①Use the appropriate coolant for the work material and machining shape.②These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece

conditions.③For slotting or ramping, feed rate should be set to 70% as general criteria. ④Ensure to index the insert at the correct time to ensure safety of the tool-body.⑤The evacuation of swarf can cause burns, cuts or damage to the eyes please ensue the correct safety cover is fitted around the machine, and necessary

personal protection equipment is worn by the machine operator.⑥Due to fire risks do not use neat cutting oil as a coolant.

【Note】


【Note】


Recommended gradeWork material φ32 /

8 Flutesφ25 /

6 Flutesφ20 /

5 Flutesφ16 /

4 Flutesφ12 /

3 Flutesφ14 /

3 Flutesφ10 /

2 Flutesφ8 /

1 Flute

Carbon SteelsAlloy SteelsS-C SCM<30HRC

Die Tool SteelsSKD SKT<30HRC

Pre-Harden SteelsAlloy Steels,Die Tool SteelsSCM SKD SKT30～40HRC



Stainless SteelsSUS

Cast IronFC FCD


8 Flutesφ25 /

6 Flutesφ20 /

5 Flutesφ16 /

4 Flutesφ12 /

3 Flutesφ14 /

3 Flutesφ10 /

2 flutesφ8 /

1 FluteDc

Tool dia.

Cutting speedvc (m/min)

Feed rate per flutef z (mm/t)

Ramping with JDMT-type insertsRamping with EDMT-type inserts

12

Recommended Cutting Conditions

Side Milling standard cutting conditions for EDMT-type inserts： Low cutting depth, high feed rate Side Milling standard cutting conditions for JDMT-type inserts

4,780120～2,870～0.60.3～33

4,380110～2,630～0.60.3～32

3,58090

～1,430～0.40.3～31

3,820120～4,590～0.60.3～57

3,500110～4,200～0.60.3～56

2,87090

～2,290～0.40.3～53

3,180120～5,730～0.60.3～7122,920110～5,260～0.60.3～7112,39090

～2,870～0.40.3～76

2,730120～6,550～0.80.3～8162,500110～6,010～0.80.3～8142,05090

～3,690～0.60.3～89

2,390120～7,640～0.80.3～10232,190110～7,010～0.80.3～10211,79090

～4,300～0.60.3～1013

1,910120～7,640～0.80.3～11251,750110～7,010～0.80.3～11231,43090

～4,300～0.60.3～1114

1,530120～7,340～0.80.3～17371,400110～6,730～0.80.3～17341,15090

～4,130～0.60.3～1721

1,190120～7,640～0.80.3～22501,090110～7,010～0.80.3～224690090

～4,300～0.60.3～2228

※JP4120(vc=100～180)

JP4120(vc=100～160)

JP4120(vc=80～120)

JM4160JP4120(vc=80～120)

JP4105　JP4120(vc=60～100)

JP4120(vc=120～220)

Dc Tool dia.

Carbon SteelsAlloy SteelsDie Tool SteelsS-C SCM SKD SKT<30HRC




Stainless SteelsSUS

Cast IronFC FCD

n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)n (min-1)vc(m/min)v f (mm/min)fz(mm/t)ap(mm)ae(mm)Q(cm3/min)

5,970150～3,580～0.60.3～33

3,580 90

～1,430 ～0.4 0.3 ～3 1

2,870 90

～2,290 ～0.4 0.3 ～5 3

2,390 90

～2,870 ～0.4 0.3 ～7 6

2,050 90

～3,690 ～0.6 0.3 ～8 9

1,790 90

～4,300 ～0.6 0.3 ～10 13

1,430 90

～4,300 ～0.6 0.3 ～11 14

1,150 90

～4,130 ～0.6 0.3 ～17 21

900 90

～4,300 ～0.6 0.3 ～22 28

2,390 60 ～720 ～0.3 0.2 ～3 0.4

1,910 60

～1,150 ～0.3 0.2 ～5 1

1,590 60

～1,430 ～0.3 0.2 ～7 2

1,360 60

～1,630 ～0.4 0.2 ～8 2

1,190 60

～1,900 ～0.4 0.2 ～10 3

950 60

～1,900 ～0.4 0.2 ～11 3

760 60

～1,820 ～0.4 0.2 ～17 6

600 60

～1,900 ～0.4 0.2 ～22 8

4,780150～5,730～0.60.3～59

3,980150～7,170～0.60.3～715

3,410150～8,190～0.80.3～820

2,990150～9,550～0.80.3～1029

2,390150～9,550～0.80.3～1132

1,910150～9,170～0.80.3～1747

1,490150～9,550～0.80.3～2263

①Use the appropriate coolant for the work material and machining shape.②These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece conditions.③For slotting or ramping, feed rate should be set to 70% as general criteria. ④Ensure to index the insert at the correct time to ensure safety of the tool-body.⑤The evacuation of swarf can cause burns, cuts or damage to the eyes please ensue the correct safety cover is fitted around the machine, and necessary

personal protection equipment is worn by the machine operator.⑥Due to fire risks do not use neat cutting oil as a coolant.⑦When using an ASM0710S08R-2 or ASM0712S10R-2 undercut type shank, as a general rule the feed rate per flute (f z) should be reduced to 50~70% of the

value listed in the standard cutting conditions.

【Note】

（mm）

φ8

10～15

φ10

6.6°

13～19

φ12

4.1°

17～23

φ14

2.9°

21～27

φ16

2.2°

25～31

φ17

2.0°

27～33

φ20

1.4°

33～39

φ32

57～63

φ21

1.3°

35～41

φ25

1°

43～49

EDMT0702



【Note】

Ramping


Helical millingRamping


Helical millingLess than 0.5 °

φ8

10～15

φ10

6.6°

13～19

φ12

4.1°

17～23

φ14

2.9°

21～27

φ16

2.2°

25～31

φ17

2.0°

27～33

φ20

1.4°

33～39

φ32

57～63

φ21

1.3°

35～41

φ25

1°

43～49

Dc Tool dia.

Inserts

Hole Dia

JDMT0702

Recommended θDc Tool dia.

Inserts

Hole Dia

Recommended θLess than 1 °


ae

ap

ae

ap

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

ap(mm)ae(mm)n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

n (min-1)

vc(m/min)

vf(mm/min)

fz(mm/t)

ap(mm)ae(mm)

7,1701805000.075,9701503600.064,7801202900.06

5,7301808000.074,7801505700.063,8201204600.06

4,7801801,0000.073,9801507200.063,1801205700.06

4,0901808600.073,4101506100.062,7301204900.06

3,5801801,0000.072,9901507200.062,3901205700.06

2,8701801,0000.072,3901507200.061,9101205700.06

2,2901809600.071,9101506900.061,5301205500.06

1,7901801,0000.071,4901507200.061,1901205700.06

※JP4120PTH30E

JP4120PTH30E

JP4120PTH30E

JP4120

JM4160PTH30EJP4120

JP4120PTH30E

JP4105JP4120

SD5010PTH30EJP4120

It is make standard that the depth cut ap and the cutting width ae be as shown in Tool Overhang (OH) and Cutting Region on the next page.Work Hardness > Please use the conditions in the table as a guideline for the cut depth ap and width ae of 40HRC.

Aluminum Alloy(wet condition)

4,7801202900.065,9701504200.07

3,580 902200.062

0.05Dc

2,860 903400.062

0.05Dc

2,390 904300.062

0.05Dc

2,050 903700.062

0.05Dc

1,790 904300.062

0.05Dc

1,430 904300.062

0.05Dc

1,150 904100.062

0.05Dc

900 904300.062

0.05Dc 3,820

1204600.064,7801506700.07

3,1801205700.063,9801508400.07

2,7301204900.063,4101507200.07

2,3901205700.062,9901508400.07

1,9101205700.062,3901508400.07

1,5301205500.061,9101508000.07

1,1901205700.061,4901508400.07

vc=200～500

fz=0.04～0.12

vc=130～180

fz=0.04～0.10

vc=100～150

fz=0.04～0.09

vc=100～150

fz=0.04～0.07

vc=80～120

fz=0.04～0.07

vc=60～100

fz=0.04～0.07

vc=130～180

fz=0.04～0.07

vc=150～200

fz=0.04～0.09

2,390 601400.062

0.05Dc

1,910 602300.062

0.05Dc

1,590 602900.062

0.05Dc

1,360 602400.062

0.05Dc

1,190 602900.062

0.05Dc

950602900.062

0.05Dc

760602700.062

0.05Dc

600602900.062

0.05Dc

11,9403009600.08

9,5503001,5300.08

7,9603001,9100.08

6,8203001,6400.08

5,9703001,9100.08

4,7803001,9100.08

3,8203001,8300.08

2,9903001,9100.08

（mm）

FW形状


①Use the appropriate coolant for the work material and machining shape.②These conditions are for general guidance; in actual machining conditions adjust the parameters according to your actual machine and work-piece

conditions.③For slotting or ramping, feed rate should be set to 70% as general criteria. ④Ensure to index the insert at the correct time to ensure safety of the tool-body.⑤The evacuation of swarf can cause burns, cuts or damage to the eyes please ensue the correct safety cover is fitted around the machine, and necessary

personal protection equipment is worn by the machine operator.⑥Due to fire risks do not use neat cutting oil as a coolant.

【Note】


【Note】



8 Flutesφ25 /

6 Flutesφ20 /

5 Flutesφ16 /

4 Flutesφ12 /

3 Flutesφ14 /

3 Flutesφ10 /

2 Flutesφ8 /

1 Flute

Carbon SteelsAlloy SteelsS-C SCM<30HRC

Die Tool SteelsSKD SKT<30HRC

Pre-Harden SteelsAlloy Steels,Die Tool SteelsSCM SKD SKT30～40HRC



Stainless SteelsSUS

Cast IronFC FCD


8 Flutesφ25 /

6 Flutesφ20 /

5 Flutesφ16 /

4 Flutesφ12 /

3 Flutesφ14 /

3 Flutesφ10 /

2 flutesφ8 /

1 FluteDc

Tool dia.

Cutting speedvc (m/min)

Feed rate per flutef z (mm/t)

Ramping with JDMT-type insertsRamping with EDMT-type inserts

13

Field data Cutting conditions for cutting aluminum alloy and copper

<Shoulder cutting>：ae=0.5Dc

Machine：BT30 5.5/3.7kwWork material：Carbon Steels　Cutting Conditions：vc=160m/min,　fz=0.08mm/t

MillingConditions

Machine：BT40 11kwWork material：Carbon Steels　Cutting Conditions：vc=160m/min,　fz=0.08mm/t

MillingConditions

<Recommended grade> ：SD5010Relation between Tool Overhang （OH） and Limits of the cutting region

Field dataOH＝48mm

OH＝32mm

OH＝35mm

OH＝55mmASC16‐8.5‐95‐30

OH＝80mmASC16‐8.5‐120‐55

OH＝105mmASC16‐8.5‐140‐75

OH＝45mmASC12‐6.5‐94‐44OH＝65mmASC12‐6.5‐94‐44OH＝85mmASC12‐6.5‐129‐64

vc＝160m/min（S5095）,f z＝0.08（F815）

vc＝160m/min（S4246）,f z＝0.08（F1019）

vc＝160m/min（S6369）,f z＝0.08（F510）

vc＝160m/min（S3185）,f z＝0.08（F1019）

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)

ae　Cutting width (mm)




5

4

3

2

1

0

5

4

3

2

1

0

5

4

3

2

1

0

5

4

3

2

1

0

0 10 20

0 10 20

0 10 20

0 10 20

ASM0708S10R-1（φ8-1NT） ASM（M）0710　　　（φ10-2NT）

ASM（M）0712　　　（φ12-3NT） ASM（M）0716　　　（φ16-4NT）

OH＝40mm

OH＝45mmASC10‐6.5‐74‐24

OH＝55mmASC10‐6.5‐84‐34

OH＝80mmASC10‐6.5‐114‐49

The cutting region curves shown below indicate criteria for selecting cutting conditions at each overhang (OH). If chattering occurs near the limits of the cutting region, make adjustments by reducing the per-flute feed rate (f z).

(Steel Shank)

(Carbide Shank)

(Steel Shank)(Carbide Shank)

(Carbide Shank)

(Carbide Shank)

(Steel Shank)

(Carbide Shank)

(Carbide Shank)

(Carbide Shank)

(Steel Shank)

(Carbide Shank)

(Carbide Shank)

ap　

Dep

th c

ut (m

m)

ae　Cutting width (mm) 0

1

2

3

4

5

10 20 30 40

【BT30】OH=35mm（Modular Mill Arbor）BT30-12.5-15-21


vc＝160m/min（S2038）,f z＝0.08（F978）

ap　

Dep

th c

ut (m

m)


1

2

3

4

5

10 20 30 40

【BT30】OH=35mm（Modular Mill Arbor）BT30-17-10-28


vc＝160m/min（S1592）,f z＝0.08（F1019）

※As a general rule, the cutting amount for ASM0710S08R-2 undercut type shank should be set within 50% of the cutting region for ASM0710S10R-2, and the cutting amount for ASM0712S10R-2 should be set within the cutting region for ASM0710S10R-2.

ASMM0725R-6(φ25-6NT） ASMM0732R-8(φ32-8NT）

Work material φ8 φ10 φ12 φ14 φ16 φ1711,9009500.083002

9,9008000.082502

9,9008000.082502

12,7002,0400.084002

11,1001,7800.083502

9,5001,5300.083002

10,6002,5500.084002

9,3002,2300.083502

8,0001,9100.083002

11,4002,7300.085002

9,1002,1800.084002

6,8001,6400.083002

9,9003,1800.085002

8,0002,5500.084002

6,0001,9100.083002

9,4003,0000.085002

7,5002,4000.084002

5,6001,8000.083002

φ209,5003,8200.086002

8,0003,1800.085002

4,8001,9100.083002

φ21 φ25 φ329,1003,6400.086002

7,6003,0300.085002

4,5001,8200.083002

7,6003,6700.086002

6,4003,0600.085002

3,8001,8300.083002

6,0003,8200.086002

5,0003,1800.085002

3,0001,9100.083002

Expanded aluminum alloy materialA5052,A7075, etc. (Wet: Water-soluble agent)

Cast aluminum alloy materialAC4A,ADC12, etc. (Wet: Water-soluble agent)

Pure copperC1100,C1020, etc. (Wet: Water-soluble agent)

【Note】 ae

ap

❶Use the appropriate coolant for the work material and machining shape. ❷The cutting conditions shown in the above table are for reference and should be adjusted according to the actual machining circumstances.❸When cutting grooves, reduce the feed rate by 30% (set it to 0.7 times the value shown above).❹When L/D=4 or higher, reduce rotation speed and feed rate by 50% (set to 0.5× stated values) as general criteria. In addition, when machining copper, set cutting depth

in axial direction to 1mm or less.❺Use on a machine equipped with splashguards. During use, be sure to wear protective equipment such as safety glasses, and always perform work in a safe environment.❻When using a machine that cannot provide the rotation speed shown above, set the highest rotation speed possible and calculate the feed rate using the fz value.❼Be sure to use this tool at rotation speeds within the acceptable range for the milling chuck being used. If the acceptable rotation speed range is below the rotation speed

shown above, set the highest acceptable rotation speed and calculate the feed rate using the fz value.

No.

12

20

10

ASM0712S12R-3

ASMM0720R-5

ASMM0710R-2

JDMT070204R（Material equivalent to P30）EDMT070220R（Material equivalent to P10）

JDMT070208R（SD5010）

SUS304

GRAPHITE

1

2

3

Tool dia.Dc(mm) Cutter Insert Work

material Test conditions

1.5times tool life of insert tools from conventional.

Good cutting performance and good tool life with O.H.80mm.

Good cutting performance with O.H.90mm.2×the tool life of conventional products.

vc=120m/min, v f=670mm/minapxae=1×8mm, Dry

vc=90m/min, v f=4,300mm/minapxae=0.3×10mm, Dry

vc=1,000m/min, v f=10,000mm/minapxae=0.6×4.0mm, Dry

HPM-MAGIC

Result Note

n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)

14

Field data Cutting conditions for cutting aluminum alloy and copper

<Shoulder cutting>：ae=0.5Dc

Machine：BT30 5.5/3.7kwWork material：Carbon Steels　Cutting Conditions：vc=160m/min,　fz=0.08mm/t

MillingConditions

Machine：BT40 11kwWork material：Carbon Steels　Cutting Conditions：vc=160m/min,　fz=0.08mm/t

MillingConditions

<Recommended grade> ：SD5010Relation between Tool Overhang （OH） and Limits of the cutting region

Field dataOH＝48mm

OH＝32mm

OH＝35mm

OH＝55mmASC16‐8.5‐95‐30

OH＝80mmASC16‐8.5‐120‐55

OH＝105mmASC16‐8.5‐140‐75

OH＝45mmASC12‐6.5‐94‐44OH＝65mmASC12‐6.5‐94‐44OH＝85mmASC12‐6.5‐129‐64

vc＝160m/min（S5095）,f z＝0.08（F815）

vc＝160m/min（S4246）,f z＝0.08（F1019）

vc＝160m/min（S6369）,f z＝0.08（F510）

vc＝160m/min（S3185）,f z＝0.08（F1019）

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)

ap　

Dep

th c

ut (m

m)





5

4

3

2

1

0

5

4

3

2

1

0

5

4

3

2

1

0

5

4

3

2

1

0

0 10 20

0 10 20

0 10 20

0 10 20

ASM0708S10R-1（φ8-1NT） ASM（M）0710　　　（φ10-2NT）

ASM（M）0712　　　（φ12-3NT） ASM（M）0716　　　（φ16-4NT）

OH＝40mm

OH＝45mmASC10‐6.5‐74‐24

OH＝55mmASC10‐6.5‐84‐34

OH＝80mmASC10‐6.5‐114‐49

The cutting region curves shown below indicate criteria for selecting cutting conditions at each overhang (OH). If chattering occurs near the limits of the cutting region, make adjustments by reducing the per-flute feed rate (f z).

(Steel Shank)

(Carbide Shank)

(Steel Shank)(Carbide Shank)

(Carbide Shank)

(Carbide Shank)

(Steel Shank)

(Carbide Shank)

(Carbide Shank)

(Carbide Shank)

(Steel Shank)

(Carbide Shank)

(Carbide Shank)

ap　

Dep

th c

ut (m

m)


1

2

3

4

5

10 20 30 40



vc＝160m/min（S2038）,f z＝0.08（F978）

ap　

Dep

th c

ut (m

m)


1

2

3

4

5

10 20 30 40



vc＝160m/min（S1592）,f z＝0.08（F1019）

※As a general rule, the cutting amount for ASM0710S08R-2 undercut type shank should be set within 50% of the cutting region for ASM0710S10R-2, and the cutting amount for ASM0712S10R-2 should be set within the cutting region for ASM0710S10R-2.

ASMM0725R-6(φ25-6NT） ASMM0732R-8(φ32-8NT）

Work material φ8 φ10 φ12 φ14 φ16 φ1711,9009500.083002

9,9008000.082502

9,9008000.082502

12,7002,0400.084002

11,1001,7800.083502

9,5001,5300.083002

10,6002,5500.084002

9,3002,2300.083502

8,0001,9100.083002

11,4002,7300.085002

9,1002,1800.084002

6,8001,6400.083002

9,9003,1800.085002

8,0002,5500.084002

6,0001,9100.083002

9,4003,0000.085002

7,5002,4000.084002

5,6001,8000.083002

φ209,5003,8200.086002

8,0003,1800.085002

4,8001,9100.083002

φ21 φ25 φ329,1003,6400.086002

7,6003,0300.085002

4,5001,8200.083002

7,6003,6700.086002

6,4003,0600.085002

3,8001,8300.083002

6,0003,8200.086002

5,0003,1800.085002

3,0001,9100.083002

Expanded aluminum alloy materialA5052,A7075, etc. (Wet: Water-soluble agent)

Cast aluminum alloy materialAC4A,ADC12, etc. (Wet: Water-soluble agent)

Pure copperC1100,C1020, etc. (Wet: Water-soluble agent)

【Note】 ae

ap

❶Use the appropriate coolant for the work material and machining shape. ❷The cutting conditions shown in the above table are for reference and should be adjusted according to the actual machining circumstances.❸When cutting grooves, reduce the feed rate by 30% (set it to 0.7 times the value shown above).❹When L/D=4 or higher, reduce rotation speed and feed rate by 50% (set to 0.5× stated values) as general criteria. In addition, when machining copper, set cutting depth

in axial direction to 1mm or less.❺Use on a machine equipped with splashguards. During use, be sure to wear protective equipment such as safety glasses, and always perform work in a safe environment.❻When using a machine that cannot provide the rotation speed shown above, set the highest rotation speed possible and calculate the feed rate using the fz value.❼Be sure to use this tool at rotation speeds within the acceptable range for the milling chuck being used. If the acceptable rotation speed range is below the rotation speed

shown above, set the highest acceptable rotation speed and calculate the feed rate using the fz value.

No.

12

20

10

ASM0712S12R-3

ASMM0720R-5

ASMM0710R-2

JDMT070204R（Material equivalent to P30）EDMT070220R（Material equivalent to P10）

JDMT070208R（SD5010）

SUS304

GRAPHITE

1

2

3

Tool dia.Dc(mm) Cutter Insert Work

material Test conditions

1.5times tool life of insert tools from conventional.

Good cutting performance and good tool life with O.H.80mm.

Good cutting performance with O.H.90mm.2×the tool life of conventional products.

vc=120m/min, v f=670mm/minapxae=1×8mm, Dry

vc=90m/min, v f=4,300mm/minapxae=0.3×10mm, Dry

vc=1,000m/min, v f=10,000mm/minapxae=0.6×4.0mm, Dry

HPM-MAGIC

Result Note

n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)n (min-1)v f (/min)f z (/t)vc (m/min)ap (mm)

15

Specifications for the products listed in this catalog are subject to change without notice due to replacement or modification. Printed in JAPAN

Printed using vegetable oil ink.

Official Web Site

Database for selection Cutting Tool Products 【TOOL SEARCH】

http://www.moldino.com/en/Head OfficeHulic Ryogoku Bldg. 8F, 4-31-11, Ryogoku, Sumida-ku, Tokyo, Japan 130-0026International Sales Dept. : TEL +81-3-6890-5103　FAX +81-3-6890-5128

MOLDINO Tool Engineering Europe GmbHItterpark 12, 40724 Hilden,Germany. Tel +49-(0)2103-24820 Fax +49-(0)2103-248230

MOLDINO Tool Engineering (Shanghai), Ltd.Room 2604-2605, Metro Plaza, 555 Loushanguan Road, Changning Disctrict,Shanghai, 200051, China Tel +86-(0)21-3366-3058 Fax +86-(0)21-3366-3050

MITSUBISHI MATERIALS U.S.A. CORPORATIONDETROIT OFFICE Customer service41700 Gardenbrook Road, Suite 120, Novi, MI 48375-1320 U.S.A.Tel +1(248) 308-2620 Fax +1(248) 308-2627CHICAGO OFFICE1314B North Plum Grove Road, Schaumburg, IL 60173 U.S.A. Tel +1(847) 252-6371 Fax +1(248) 308-2627

MMC METAL DE MEXICO, S.A. DE C.V.Av. La Cañada No.16, Parque Industrial Bernardo Quintana, El Marques, Querétaro, CP 76246, MéxicoTel +52-442-1926800

MMC METAL DO BRASIL LTDA. Rua Cincinato Braga, 340 13° andar.Bela Vista – CEP 01333-010 São Paulo – SP ., Brasil Tel +55(11)3506-5600 Fax +55(11)3506-5677

MMC Hardmetal (Thailand) Co.,Ltd. MOLDINO Division622 Emporium Tower, Floor 22/1-4, Sukhumvit Road, Klong Tan, Klong Toei, Bangkok 10110, ThailandTEL:+66-(0)2-661-8175 FAX:+66-(0)2-661-8176

Hitachi Metals (India) Pvt. Ltd.Plot No 94 & 95,Sector 8, IMT Manesar ,Gurgaon-122050 , Haryana, India Tel +91-124-4812315 Fax +91-124-2290015

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The diagrams and table data are examples of test results, and are not guaranteed values.“ ” is a registered trademark of MOLDINO Tool Engineering, Ltd.

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India

Attentions on Safety1. Attentions regarding handling（1）When removing the tool from the case（package）, be careful not to drop it on your foot or drop it onto the tips of your bare fingers.（2）When actually setting the inserts, be careful not to touch the cutting flute directly with your bare hands.

2. Attentions regarding mounting（1）When preparing for use, be sure that the inserts are firmly mounted in place and that they are firmly mounted on the arbor, etc.（2）If abnormal chattering occurs during use, stop the machine immediately and remove the cause of the chattering.

3. Attentions during use（1）Before use, confirm the dimensions and direction of rotation of the tool and milling work material.（2）The numerical values in the standard cutting conditions table should be used as criteria when starting new work. The cutting conditions should be adjusted

as appropriate when the cutting depth is large, the rigidity of the machine being used is low, or according to the conditions of the work material.（3）The inserts are made of a hard material. During use, they may break and fly off. In addition, cutting chips may also fly off. Since there is a danger of injury to

workers, fire, or eye damage from such flying pieces, a safety cover should be installed and safety equipment such as safety glasses should be worn to create a safe environment for work.

　　・Do not use where there is a risk of fire or explosion.　　・Do not use non-water-soluble cutting oils. Such oils may result in fire.（4）Do not use the tool for any purpose other than that for which it is intended, and do not modify it.

2020-10（ME-T0）2012-2:FP

indexable square end mill asm - moldino

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