MC6015 MC6025 MC6035. Pushing the boundaries of steel turning FP/LP MP/RP Series Grades for Steel Turning TOOL NEWS B196A.

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1 6000 eries Grades for teel Turning TOOL NEW Update B196A Item Expansion Pushing the boundaries of steel turning FP/LP MP/RP

2 Grade for teel Turning MC6000 eries for High peed Cutting Delivers outstanding heat and wear the resistance during high speed cutting. Machining time can be shortened and number of workpieces per cutting edge can be increased in stable machining. the tandard Grade for teels is a standard grade for steels, and utilizes an optimum CVD coating which is suitable for crater and fl ank wear, thereby achieving general versatility for increased stability. for Interrupted Cutting, Medium to Low peed Cutting By dispersing an impact stress during interrupted machining, controls crack development and achieves a good balance between fracture and welding resistance during low speed cutting. election Criteria Work Material Cutting Mode Grade Application Range IO CVD P teels Continuous Cutting UE6105 P Interrupted Cutting teels 40 1

$Key Technology Improved urface Finishes Welding Resistance Prevents abnormal fracture and weld chipping.$ The tandard Grade for teels CVD Coating Layer Reduces Wear High wear resistance can be achieved due to the thickened Nano-texture TiCN layer.

The tandard Grade for teels CVD Coating Layer Reduces Wear High wear resistance can be achieved due to the thickened Nano-texture TiCN layer.

3 Key Technology Improved urface Finishes Welding Resistance Prevents abnormal fracture and weld chipping. The CVD Coating Layer Prevents Crater Wear Flat Al2O3 layer with excellent heat resistance reduces crater wear development. The tandard Grade for teels CVD Coating Layer Reduces Wear High wear resistance can be achieved due to the thickened Nano-texture TiCN layer. pecial Carbide ubstrate with Improved Fracture Resistance Comparison for Coating urface Roughness With an extremely smooth surface, the Black uper Even Coating provides improved surface roughness which results in excellent resistance against adhesion, abnormal damage and weld chipping. MC6000 eries Coating (!-inch) Vertical Axis x 5000 Horizontal Axis x 200 uper-smooth urface (!-inch) Vertical Axis x 5000 Horizontal Axis x [Magnifi ed Photo] urface characteristics of the chip breaker. ubstrate with Improved Tough Layer [Magnifi ed Photo] urface characteristics of the chip breaker. The new technology used in ensures a tough edge layer that vastly reduces crack development and fracturing. Coating Layer Coating Layer Tough Layer Tough Layer Newly Developed ubstrate ubstrate 2

For High peed Cutting Delivers Outstanding Wear Resistance

Better wear resistance can be achieved even at high

The optimized crystal growth, Nano-texture coating technology

Nano-texture Coating Image Coating Image Optimized Crystal

between the layers is controlled at the nano level, allowing

4 For High peed Cutting Delivers Outstanding Wear Resistance even at High Temperatures Nano-texture Coating Technology Better wear resistance can be achieved even at high temperature due to the thickened Al2O3 layer. The optimized crystal growth, Nano-texture coating technology provides outstanding wear and chipping. Nano-texture Coating Image Coating Image Optimized Crystal Growth Condition TOUGH-grip Al2O3 TOUGH-grip The interface between the layers is controlled at the nano level, allowing the TOUGH-grip layer extremely high levels of adhesion to prevent delamination. TiCN Coating Layers with trength and Toughness 3

For Interrupted Cutting, Medium to Low peed Cutting Prevents evere Damage for Increased tability Reducing the Effect of evere Fracturing By

Impact tress when Interrupted Cutting The smooth coating surface provides excellent welding resistance.

$Tensile tress Tensile tress products tend to result in fracturing because impact stress is transmitted deep into the coating layer during$

5 For Interrupted Cutting, Medium to Low peed Cutting Prevents evere Damage for Increased tability Reducing the Effect of evere Fracturing By reducing the tensile stress in the coating layer during interrupted cutting, crack development caused by impact stress is prevented. Impact tress when Interrupted Cutting The smooth coating surface provides excellent welding resistance. With the thickened TiCN, also achieves superior wear resistance for increased stability. Tensile tress Tensile tress products tend to result in fracturing because impact stress is transmitted deep into the coating layer during interrupted cutting. Coating Impact tress when Interrupted Cutting Tensile tress Tensile tress has succeeded in alleviating tensile stress in the coating layer therefore, cracks that can develop by impact stress can be prevented when interrupted cutting. 4

Chip Breaker ystem for teel Turning Negative Inserts Application Tolerance Chip Breaker Name and Picture Features Cross ection Geometry Finish Cutting M FP Better choice for finish

A good surface fi nish through the 20 positive high rake angle.

The curved edge allows smooth chip discharge. Carbon teel Alloy teel 15 11.004".

15 The curved edge allows smooth chip discharge. Recommended for work materials in the 160 250HB range.

25 Wavy cutting edge is ideal for copying and back turning. Recommended for work materials in the 200 300HB range. 25 10.008".012".

$Chip breaker geometry suitable for copying and back turning. Cutting edge geometry for an optimum balance of sharpness and fracture resistance. Carbon teel Alloy teel 15 11.006".$ 008" MA Alternative chip breaker for medium cutting of carbon and alloy steels Ideal for general-purpose use. Positive land provides sharp cutting action.

008" MA Alternative chip breaker for medium cutting of carbon and alloy steels Ideal for general-purpose use. Positive land provides sharp cutting action.

6 Chip Breaker ystem for teel Turning Negative Inserts Application Tolerance Chip Breaker Name and Picture Features Cross ection Geometry Finish Cutting M FP Better choice for finish cutting of steels Offers good chip control in wide cutting conditions table chip control in wide range. Available to both general and low carbon steel cuttings. A good surface fi nish through the 20 positive high rake angle. Carbon teel Alloy teel LP First recommendation for light cutting of carbon and alloy steels table chip control in the light cutting range. The curved edge allows smooth chip discharge. Carbon teel Alloy teel ".008" Light Cutting M H Alternative chip breaker for light cutting of carbon and Carbon teel Alloy teel alloy steels Can be used at low depth of cuts and high feed rates. 15 The curved edge allows smooth chip discharge. Recommended for work materials in the HB range. 15 A Carbon teel Alloy teel Alternative chip breaker for light cutting of carbon and alloy steels uperior chip control at small depths of cuts. 25 Wavy cutting edge is ideal for copying and back turning. Recommended for work materials in the HB range ".012".013" 8 Carbon teel Alloy teel W Wiper insert for light cutting of carbon and alloy steels 18 In comparison to conventional chip breakers, the surface fi nish is maintained even if the feed per revolution is doubled ".006" MP First recommendation for medium cutting of carbon and alloy steels uitable for medium to light cutting. Chip breaker geometry suitable for copying and back turning. Cutting edge geometry for an optimum balance of sharpness and fracture resistance. Carbon teel Alloy teel ".008" MA Alternative chip breaker for medium cutting of carbon and alloy steels Ideal for general-purpose use. Positive land provides sharp cutting action. mooth chip control for low-carbon steels, etc. Carbon teel Alloy teel " 6.008" 6 Medium Cutting M MH First recommendation for rough cutting of mild steels Alternative chip breaker for medium cutting of carbon and alloy steels Flat land offers high edge strength. Carbon teel Alloy teel ".014" tandard First recommendation for medium cutting of cast irons Alternative chip breaker for medium cutting of carbon and alloy steels Flat land offers high edge strength. Carbon teel Alloy teel ".010" 5 MW Wiper insert for medium cutting carbon and Carbon teel Alloy teel alloy steels In comparison to conventional chip breakers, 19 the surface fi nish is maintained even if the feed per revolution is doubled ".012"

7 Application Tolerance Chip Breaker Name and Picture Features Cross ection Geometry Rough Cutting M RP First recommendation for rough cutting of carbon and alloy steels For interrupted cuts and removing scale. Good balance of cutting edge strength and low cutting resistance because of a suitable rake angle. Carbon teel Alloy teel 3.013".013" Positive Inserts Application Tolerance Chip Breaker Name and Picture Features Cross ection Geometry Finish Cutting M FP FV First recommendation for finish cutting of carbon and alloy steels The protuberance at the tip of the chip breaker controls chips even at small depths of cut. Corner strength is maintained to prevent abnormal fracturing. 5 Positive Insert Finish cutting of carbon steels, alloy steels and mild steels uitable for low depths of cut and low feed rates. harp cutting edge and low resistance design achieves excellent cutting performance. Positive Insert Carbon teel Alloy teel Carbon teel Alloy teel LP First recommendation for light cutting of carbon and alloy steels Excellent cutting edge sharpness due to the large rake angle. Prevents chip welding of the insert to ensure good surface fi nishes. Optimized chip breaker realizes a wide range of chip control. 5 Positive Insert Carbon teel Alloy teel 18 8 Light Cutting M V Light cutting of carbon steels, alloy steels and mild steels Large rake angle provides sharp cutting action. A peninsular dot ensures chip control at depths of cut under.039". 11 Positive Insert Carbon teel Alloy teel 18 8 W Wiper insert for light cutting of carbon steels, alloy steels and mild steels In comparison to conventional chip breakers, the surface fi nish is maintained even if the feed per revolution is doubled. Positive Insert Carbon teel Alloy teel ".005" 8 MP First recommendation for medium cutting of carbon and alloy steels The wide pocket reduces vibration and chip jamming and also prevents increases in cutting resistance even at high depths of cut. 5 Positive Insert Carbon teel Alloy teel ".004" Medium Cutting M MV Medium cutting of carbon steels, alloy steels and mild steels A positive insert and large rake angle achieves sharp cutting edge performance. Double chip breakers in the rake face give a wide range of chip control Positive Insert Carbon teel Alloy teel " 8.008" 8 MW Wiper insert for medium cutting of carbon steels, alloy steels and mild steels In comparison to conventional chip breakers, the surface fi nish is maintained even if the feed per revolution is doubled. Positive Insert Carbon teel Alloy teel ".008" 6

8 6000 eries Grades for teel Turning // Negative Inserts (With Hole) M Class Finish Light Light Light Light FP LP H A W CNMG (Wiper) Medium Medium Medium Medium Medium Rough MP MA MH tandard MW RP EPR 80º (Wiper) CNMG430.5FP F a a CNMG431FP F a a CNMG432FP F a a CNMG433FP F a a CNMG431LP L a a a CNMG432LP L a a a CNMG433LP L a a a CNMG431H L a a CNMG432H L a a CNMG433H L a a CNMG431A L a a CNMG432A L a a CNMG433A L a a CNMG431W L a CNMG432W L a CNMG433W L a CNMG431MP M a a a CNMG432MP M a a a CNMG433MP M a a a CNMG434MP M a a a CNMG542MP M a CNMG543MP M a CNMG544MP M a CNMG431MA M a a CNMG432MA M a a a CNMG433MA M a a a CNMG542MA M a a a CNMG543MA M a a a CNMG544MA M a a a CNMG643MA M a a a CNMG644MA M a a a CNMG432MH M a a a CNMG433MH M a a a CNMG543MH M a a a CNMG643MH M a a a CNMG32.51 M s s CNMG32.52 M s s CNMG431 M a a CNMG432 M a a a CNMG433 M a a a CNMG434 M a a CNMG542 M a a a CNMG543 M a a a CNMG544 M a a a CNMG642 M a a a CNMG643 M a a a CNMG644 M a a a CNMG432MW M a a CNMG433MW M a a CNMG432RP R a a a CNMG433RP R a a a CNMG434RP R a a a CNMG543RP R a a a CNMG544RP R a a a CNMG643RP R a a a CNMG644RP R a a a a : Inventory maintained. s : Inventory maintained in Japan.

9 Negative Inserts (With Hole) M Class Finish Light Light Light Light Medium FP LP H A W MP DNMG DNMX (Wiper) Medium Medium Medium Medium Rough EPR 55º MA MH tandard MW RP (Wiper) DNMG430.5FP F a a DNMG431FP F a a DNMG432FP F a a DNMG433FP F a a DNMG440.5FP F a a DNMG441FP F a a DNMG442FP F a a DNMG443FP F a a DNMG331LP L a a a DNMG332LP L a a a DNMG431LP L a a a DNMG432LP L a a a DNMG433LP L a a a DNMG441LP L a a a DNMG442LP L a a a DNMG443LP L a a a DNMG431H L a a DNMG432H L a a DNMG433H L a a DNMG431A L a a DNMG432A L a a DNMG433A L a a DNMX331W L a DNMX332W L a DNMX431W L a DNMX432W L a DNMX433W L a DNMX441W L a DNMX442W L a DNMX443W L a DNMG431MP M a a a DNMG432MP M a a a DNMG433MP M a a a DNMG434MP M a a a DNMG441MP M a a a DNMG442MP M a a a DNMG443MP M a a a DNMG444MP M a a a DNMG331MA M a a DNMG332MA M a a DNMG333MA M a a DNMG431MA M a a DNMG432MA M a a a DNMG433MA M a a a DNMG441MA M a a DNMG442MA M a a a DNMG443MA M a a a DNMG432MH M a a a DNMG433MH M a a a DNMG442MH M a a a DNMG443MH M a a a DNMG431 M a a DNMG432 M a a a DNMG433 M a a a DNMG434 M a a a DNMG441 M a a DNMG442 M a a a DNMG443 M a a a DNMG444 M a a a DNMX432MW M a DNMX433MW M a DNMX442MW M a DNMX443MW M a DNMG432RP R a a a DNMG433RP R a a a DNMG434RP R a a a DNMG442RP R a a a DNMG443RP R a a a DNMG444RP R a a a

10 6000 eries Grades for teel Turning // Negative Inserts (With Hole) M Class RNMG Medium Finish Light Medium Medium tandard FP LP MP MA NMG Medium Medium Rough MH tandard RP EPR 90º RNMG43 M a a NMG431FP F a a NMG432FP F a a NMG433FP F a a NMG431LP L a a a NMG432LP L a a a NMG433LP L a a a NMG431MP M a a a NMG432MP M a a a NMG433MP M a a a NMG431MA M a a NMG432MA M a a a NMG433MA M a a a NMG543MA M a a a NMG544MA M a a a NMG643MA M a a a NMG644MA M a a a NMG432MH M a a a NMG433MH M a a a NMG321 M a a NMG322 M a a NMG431 M a a NMG432 M a a a NMG433 M a a a NMG434 M a a a NMG435 M a a a NMG543 M a a a NMG544 M a a a NMG643 M a a a NMG644 M a a a NMG432RP R a a a NMG433RP R a a a NMG434RP R a a a NMG543RP R a a a NMG544RP R a a a NMG643RP R a a a NMG644RP R a a a a : Inventory maintained.

11 Negative Inserts (With Hole) M Class Finish Light Light Light Light FP LP H A W TNMG TNMX (Wiper) Medium Medium Medium Medium Medium Rough MP MA MH tandard MW RP EPR 60º (Wiper) TNMG330.5FP F a a TNMG331FP F a a TNMG332FP F a a TNMG333FP F a a TNMG331LP L a a a TNMG332LP L a a a TNMG333LP L a a a TNMG432LP L a a a TNMG433LP L a a a TNMG331H L a a TNMG332H L a a TNMG331A L a a TNMG332A L a a TNMX331W L a TNMX332W L a TNMG331MP M a a a TNMG332MP M a a a TNMG333MP M a a a TNMG432MP M a a a TNMG433MP M a a a TNMG331MA M a a TNMG332MA M a a a TNMG333MA M a a a TNMG432MA M a a a TNMG433MA M a a a TNMG332MH M a a a TNMG333MH M a a a TNMG432MH M a a a TNMG433MH M a a a TNMG221 M a a TNMG222 M a a TNMG321 M a a TNMG322 M a a TNMG331 M a a TNMG332 M a a a TNMG333 M a a a TNMG334 M a a a TNMG431 M a a a TNMG432 M a a a TNMG433 M a a a TNMG434 M a a a TNMG542 M a a a TNMG543 M a a a TNMX332MW M a TNMX333MW M a TNMG332RP R a a a TNMG333RP R a a a TNMG432RP R a a a TNMG433RP R a a a TNMG434RP R a a a TNMG543RP R a a a TNMG544RP R a a a

12 6000 eries Grades for teel Turning // Negative Inserts (With Hole) M Class Finish Light Light Light FP LP H A VNMG Medium Medium Medium Medium EPR 35º MP MA MH tandard VNMG330.5FP F a a VNMG331FP F a a VNMG332FP F a a VNMG333FP F a a VNMG331LP L a a a VNMG332LP L a a a VNMG331H L a a VNMG332H L a a VNMG331A L a a VNMG332A L a a VNMG331MP M a a a VNMG332MP M a a a VNMG333MP M a a a VNMG331MA M a a VNMG332MA M a a a VNMG332MH M a a a VNMG331 M a a VNMG332 M a a a VNMG333 M a a a a : Inventory maintained.

13 Negative Inserts (With Hole) M Class Finish Light Light Light Light FP LP H A W WNMG EPR 80º (Wiper) Medium Medium Medium Medium Medium Rough MP MA MH tandard MW RP (Wiper) WNMG430.5FP F a a WNMG431FP F a a WNMG432FP F a a WNMG433FP F a a WNMG32.51LP L a a a WNMG32.52LP L a a a WNMG331LP L a a a WNMG332LP L a a a WNMG431LP L a a a WNMG432LP L a a a WNMG433LP L a a a WNMG431H L a a WNMG432H L a a WNMG433H L a a WNMG431A L a a WNMG432A L a a WNMG433A L a a WNMG331W L a WNMG332W L a WNMG431W L a WNMG432W L a WNMG433W L a WNMG32.51MP M a a a WNMG32.52MP M a a a WNMG32.53MP M a a a WNMG331MP M a a a WNMG332MP M a a a WNMG333MP M a a a WNMG431MP M a a a WNMG432MP M a a a WNMG433MP M a a a WNMG434MP M a a a WNMG331MA M a a WNMG332MA M a a WNMG333MA M a a WNMG431MA M a a WNMG432MA M a a a WNMG433MA M a a a WNMG432MH M a a a WNMG433MH M a a a WNMG431 M a a WNMG432 M a a a WNMG433 M a a a WNMG332MW M a a WNMG333MW M a a WNMG432MW M a a WNMG433MW M a a WNMG432RP R a a a WNMG433RP R a a a

14 6000 eries Grades for teel Turning // 5 Positive Inserts (With Hole) M Class VBMT WBMT EPR 35º EPR 80º AN 5 Finish Light Medium Medium FP LP MP MV MV Medium AN 5 VBMT220.5FP F a a VBMT221FP F a a VBMT222FP F a a VBMT331FP F a a VBMT332FP F a a VBMT221LP L a a VBMT222LP L a a VBMT331LP L a a VBMT332LP L a a VBMT331MP M a a VBMT332MP M a a VBMT221MV M a VBMT222MV M a VBMT331MV M a VBMT332MV M a WBMT RMV M a WBMT LMV M a WBMT RMV M a WBMT LMV M a a : Inventory maintained.

15 Positive Inserts (With Hole) M Class CCMT CCMH EPR 80º DCMT AN Finish Light Light Light Medium Medium FP LP V W MP MV (Wiper) Medium Finish Light Medium Medium MW FP LP MP MV EPR 55º AN (Wiper) CCMT FP F a a CCMT21.51FP F a a CCMT FP F a a CCMT32.51FP F a a CCMT32.52FP F a a CCMT21.51LP L a a CCMT21.52LP L a a CCMT32.51LP L a a CCMT32.52LP L a a CCMH V L a CCMH21.51V L a CCMT W L a a CCMT21.51W L a a CCMT W L a a CCMT32.51W L a a CCMT21.51MP M a a CCMT21.52MP M a a CCMT32.51MP M a a CCMT32.52MP M a a CCMT431MP M a a CCMT432MP M a a CCMT433MP M a a CCMH MV M a CCMH21.51MV M a CCMT21.51MW M a a CCMT21.52MW M a a CCMT32.51MW M a a CCMT32.52MW M a a CCMT431MW M a a CCMT432MW M a a DCMT FP F a a DCMT21.51FP F a a DCMT FP F a a DCMT32.51FP F a a DCMT32.52FP F a a DCMT21.51LP L a a DCMT21.52LP L a a DCMT32.51LP L a a DCMT32.52LP L a a DCMT21.51MP M a a DCMT21.52MP M a a DCMT32.51MP M a a DCMT32.52MP M a a DCMT431MP M a a DCMT432MP M a a DCMT MV M a DCMT21.51MV M a DCMT21.52MV M a DCMT MV M a DCMT32.51MV M a DCMT32.52MV M a

16 6000 eries Grades for teel Turning // Positive Inserts (With Hole) M Class RCMX Medium tandard Rough RR AN Finish Light Medium CMT FP LP MP EPR 90º AN RCMX1003M0 M s RCMX1204M0 M s RCMX1606M0 M s RCMX2006M0 M s RCMX1606M0-RR R s RCMX2006M0-RR R s CMT32.51FP F a a CMT32.52FP F a a CMT32.51LP L a a CMT32.52LP L a a CMT32.51MP M a a CMT32.52MP M a a CMT431MP M a a CMT432MP M a a a : Inventory maintained. s : Inventory maintained in Japan.

17 Positive Inserts (With Hole) M Class TCMT Finish Light Medium FP LP MP EPR 60º VCMT AN Finish Finish Light Light Medium Medium FP FV LP V MP MV EPR 35º AN TCMT FP F a a TCMT FP F a a TCMT FP F a a TCMT21.51FP F a a TCMT32.51FP F a a TCMT LP L a a TCMT LP L a a TCMT21.51LP L a a TCMT21.52LP L a a TCMT32.51LP L a a TCMT32.52LP L a a TCMT MP M a a TCMT MP M a a TCMT21.51MP M a a TCMT21.52MP M a a TCMT2.521MP M a a TCMT32.51MP M a a TCMT32.52MP M a a TCMT32.53MP M a a VCMT220.5FP F a a VCMT221FP F a a VCMT331FP F a a VCMT332FP F a a VCMT FV F a VCMT FV F a VCMT221LP L a a VCMT222LP L a a VCMT331LP L a a VCMT332LP L a a VCMT V L a VCMT V L a VCMT331MP M a a VCMT332MP M a a VCMT333MP M a a VCMT MV M a VCMT MV M a

18 6000 eries Grades for teel Turning // 11 Positive Inserts (With Hole) M Class TPMH Light Medium V MV CPMH EPR 60º AN 11 Light Medium Medium EPR 80º AN 11 WPMT EPR 80º V MV MV AN 11 CPMH V L a CPMH V L a CPMH320.5V L a CPMH321V L a CPMH322V L a CPMH MV M a CPMH MV M a CPMH321MV M a CPMH322MV M a TPMH V L a TPMH V L a TPMH V L a TPMH V L a TPMH220.5V L a TPMH221V L a TPMH222V L a TPMH320.5V L a TPMH321V L a TPMH322V L a TPMH MV M a TPMH MV M a TPMH MV M a TPMH MV M a TPMH MV M a TPMH220.5MV M a TPMH221MV M a TPMH222MV M a TPMH321MV M a TPMH322MV M a WPMT MV M a WPMT21.51MV M a WPMT321MV M a WPMT322MV M a a : Inventory maintained.

19 P Recommended Cutting Conditions Negative Inserts (For External Turning) Work Material Properties Carbon and Alloy teels (AII 1045, 4140 etc.) HB Finish Cutting Light Cutting Medium Cutting Rough Cutting Cutting Conditions General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting Grade vc (FM) f (IPR) FP FP ap LP,H,A W LP,H,A LP Chip Breaker MP MA MH tandard MW MP MA MH tandard MW MP MA MH tandard RP RP RP Positive Inserts (For External Turning) Work Material Properties vc (FM) P General Cutting FP,FV Finish Cutting Unstable Cutting FP,FV Mild teels (ATM 283, 1010 etc.) Carbon and Alloy teels (AII 1045, 4140 etc.) Carbon and Alloy teels (AII 4340 etc.) 180HB HB HB Light Cutting Medium Cutting Finish Cutting Light Cutting Medium Cutting Medium Cutting Cutting Conditions General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting General Cutting Unstable Cutting Grade f (IPR) LP LP,V MP MP, MV FP,FV FP,FV Chip Breaker ap LP W LP,V W MP MW MP,MV MW MP MP,MV * Recommended cutting conditions for 5º/7º/11º positive inserts are provided as a guideline only. Verify the recommended conditions for each boring bar as cutting conditions for internal machining will vary depending on the length of overhang. 18

6000 eries Grades for teel Turning Cutting Performance Interuppted Machining of AII 4340 f =.012 IPR A B C f =.013 IPR 0 0.5 1 1.

$118 inch Cutting Mode : Dry Cutting It is possible to machine up to 100 pieces without fracturing. 0 Fracture 50 100 150 Number of Workpieces (pcs.$

20 6000 eries Grades for teel Turning Cutting Performance Interuppted Machining of AII 4340 f =.012 IPR A B C f =.013 IPR Cutting Time (min) Interrupted Machining of AII 1050 <Cutting Conditions> Work Material : AII 4340 Insert : CNMG432oo Cutting peed : vc=330 FM Depth of Cut : ap=.118 inch Cutting Mode : Dry Cutting It is possible to machine up to 100 pieces without fracturing. 0 Fracture Number of Workpieces (pcs.) Double Tool Life <Cutting Conditions> Work Material : AII 1050 Insert : WNMG433oo Cutting peed : vc=360 FM Feed per Rev. : f=.012 IPR Depth of Cut : ap=.048 inch Cutting Mode : Dry Cutting 19 VB=.007 inch 45 pieces 100 pieces

Continuous Cutting of Bearing teels.016.014.012 A B Wear VB.

002 A B 0 0 2 4 6 8 10 12 14 16 18 20 Cutting Time (min)

CNMG432oo Cutting peed : vc=985 FM Feed per Rev. : f=.

059 inch Cutting Mode : Wet Cutting Cutting Time: 10 min

$fracture resistance and prevents crack development.$ * Cutting edge after 3000 times of impacts <Cutting

21 Continuous Cutting of Bearing teels A B Wear VB Cutting Time: 18 min A B Cutting Time (min) <Cutting Conditions> Work Material : AII Inserts : CNMG432oo Cutting peed : vc=985 FM Feed per Rev. : f=.012 IPR Depth of Cut : ap=.059 inch Cutting Mode : Wet Cutting Cutting Time: 10 min Cutting Time: 16 min Performance Evaluation During Interrupted Turning of AII 4131 Provides outstanding fracture resistance and prevents crack development. * Cutting edge after 3000 times of impacts <Cutting Conditions> Work Material : AII 4131 Inserts : CNMG432oo Cutting peed : vc=655 FM Feed per Rev. : f=.010 IPR Depth of Cut : ap=.059 inch Cutting Mode : Wet Cutting 20

6000 eries Grades for teel Turning Application Example Insert CNMG432H Carbon teel (External Turning) Carbon teel (External

118.039.055 Cutting Mode Wet Cutting Wet Cutting -H -MA VB=.012 inch VB=.009 inch VB=.015 inch VB=.

life. achieved 1.3 times longer tool life during high speed cutting.

Cutting peed vc (FM) Feed per Rev. 560 655.006.010 Depth of Cut.006.118 Cutting Mode Wet Cutting Wet Cutting -LP -RP VB=.

$life. is resistant to sudden fracturing so could achieve 2.5 times longer tool life.$ Insert DNMG432MA AII 52100 + A283 AII 1043 (External Copy Turning) (External, Face Turning) DNMG432A Workpiece 52100 A283

Insert DNMG432MA AII 52100 + A283 AII 1043 (External Copy Turning) (External, Face Turning) DNMG432A Workpiece 52100 A283

059 Cutting Mode Wet Cutting Wet Cutting Number of Workpieces (pcs. /corner) 20 40 60 80 -MA -A VB=.

22 6000 eries Grades for teel Turning Application Example Insert CNMG432H Carbon teel (External Turning) Carbon teel (External Turning) DNMG433MA Workpiece Cutting Conditions Cutting peed vc (FM) Feed per Rev Depth of Cut Cutting Mode Wet Cutting Wet Cutting -H -MA VB=.012 inch VB=.009 inch VB=.015 inch VB=.013 inch Results 300 pieces 535 pieces 300 pieces 400 pieces could use increased cutting conditions and gave double tool life. achieved 1.3 times longer tool life during high speed cutting. Insert TNMG331LP AII W1-10 (External, Face Turning) AII 1045 (External Turning) DNMG432RP Workpiece Cutting Conditions Cutting peed vc (FM) Feed per Rev Depth of Cut Cutting Mode Wet Cutting Wet Cutting -LP -RP VB=.010 inch VB =.009 inch Number of Workpieces (pcs. /corner) VB=.007 inch Results pieces 90 pieces 50 pieces produced a good surface fi nish and provided a longer tool life. is resistant to sudden fracturing so could achieve 2.5 times longer tool life. Insert DNMG432MA AII A283 AII 1043 (External Copy Turning) (External, Face Turning) DNMG432A Workpiece A283 Cutting Conditions Cutting peed vc (FM) Feed per Rev Depth of Cut Cutting Mode Wet Cutting Wet Cutting Number of Workpieces (pcs. /corner) MA -A VB=.007 inch Number of Workpieces (pcs. /corner) VB=.010 inch Results achieved longer tool life when machining composite materials. 60 pieces 110 pieces is resistant to sudden fracturing so could achieve double longer tool life. The above application examples are customer s applications, so it can be different from the recommended conditions.

23 Insert WNMG432MP WNMG431LP AII 1055 (External, Face Turning) AII 4140H (External, Face Turning) Workpiece Cutting Conditions Cutting peed vc (FM) Feed per Rev. 590(External) 655(Face Turning).010(External).011(Face Turning) Depth of Cut Cutting Mode Wet Cutting Wet Cutting -MP -LP Results 120 pieces 120 pieces 70 pieces 132 pieces achieved longer tool life due to its excllent wear achieved 1.8 times longer tool life. resistance. Insert CNMG432MP AII 4135H (Face Turning) AII H13 (External Turning) CNMG432MP Workpiece Cutting Conditions Cutting peed vc (FM) Feed per Rev Depth of Cut Cutting Mode Wet Cutting Wet Cutting -MP -MP (Number of Workpieces: 20) (Number of Workpieces: 20) Results Fractured after 25 pieces Life extended to 40 pieces. achieved longer tool life compared to a conventional insert due to its excellent chipping resistance. 60 pieces machined 60 pieces machined exhibited substantially less wear after machining the same number of workpieces. Insert CNMG432MP Cr-Mo teel (External Turning) AII 1045 (External, Face Turning) WNMG432RP Workpiece ø1.0".47" 1.0" Cutting Conditions Cutting peed vc (FM) Feed per Rev Depth of Cut Cutting Mode Wet Cutting Wet Cutting -MP -RP Fracture Results Fractured after machining 185 pieces After machining 555 pieces 218 pieces 267 pieces tool life was triple longer than conventional grades. achieved 1.2 times longer tool life due to its excellent welding resistance. The above application examples are customer s applications, so it can be different from the recommended conditions. 22

6000 eries Grades for teel Turning MC6000 // For your safety adon't touch breakers and chips without gloves.

aplease use safety cover and wear safety glasses. awhen using compounded cutting oils, please take fire prevention.

awhen using tools in revolution machining, please make a trial run to check run-out, vibration, abnormal sounds etc.

: 714-668-1320 CHAGO OFFE 1314B North Plum Grove Road, chaumburg, IL 60173 TEL : 847-252-6300 FAX : 847-519-1732 TORONTO OFFE 3535 Laird Road, Units 15

24 6000 eries Grades for teel Turning MC6000 // For your safety adon't touch breakers and chips without gloves. aplease machine within recommended application range, and exchange expired tools with new parts in advance. aplease use safety cover and wear safety glasses. awhen using compounded cutting oils, please take fire prevention. awhen attaching inserts or spare parts, please use the attached wrench or driver. awhen using tools in revolution machining, please make a trial run to check run-out, vibration, abnormal sounds etc. Customer ervice : Technical ervice : LO ANGELE HEAD OFFE later Avenue, Fountain Valley, CA TEL : FAX : CHAGO OFFE 1314B North Plum Grove Road, chaumburg, IL TEL : FAX : TORONTO OFFE 3535 Laird Road, Units 15 & 16, Mississauga, Ontario, L5L 5Y7, Canada TEL : FAX : MMC METAL DE MEXO,.A. DE C.V. Av. La Cañada No.16, Parque Industrial Bernardo Quintana, El Marques, Queretaro, CP76246, Mexico TEL : FAX : URL : (Tools specifications subject to change without notice.) EXP-14-E011 Printed in U..A. 8/18