CTLOGUE/2 THECOMPLETERNGEOFPRODUCTS OFFICILCORUNHOLDING CONTENT/2 PRTINGND GROOVING THREDING HEVY MILLING DRILLING SURFCEREMOVINGTOOLS MININGTOOLS SPECILTOOLS
TUV PROF CERT EПС
PRTING ND GROOVING B THREDING C HEVY D MILLING Е DRILLING F SURFCE REMOVING TOOLS G MINING TOOLS H SPECIL TOOLS I INDEX J
. Tuning insets SMX P SMX U SMX S SMX CCMT.b2 CCMW.b2 CNM.a2 CNMG.a3 CNMM.a2 DCMT.b3 DCMW.b3 DNM.a4 DNMG.a5 DNMM.a4 KNUX.c2 KNUX 22.c2 PNE.a5 PNM.a5 PNMX.a5 PNUM.a13 RCMW.a6 RCMX.a6 RCMT.a6 RNG.a6 RNMG.a6 SCMT.b4 SCMW.b4 SNM.a7 SNMG.a8 SNMM.a7 SNMX.a9 SPGN.c3 SPGR.c3 SPMR.c4 SPUN.c4 TCMT.b5 TCMW.b5 TNGN.c5 TNM.a9 TNMG.a1 TNMM.a11 TNUX.a11 TNUN.c5 TPGN.c6 TPGR.c7 TPMR.c7 TPUN.c6 VBMT.b6 VNM.a WNMG.a WNUM.a13
. Toolholdes o extenal tuning STFCR/L.h3 CFTPR/L.i2 R/L S31.9.i2 PSKNR/L.g3 PDUNR/L.g2 R/L S71.5.5 R/L S7.5.5 CTDPR/L.4 CTTPR/L.4 CTBPR/L.4.3 CTFPR/L CSKPR/L.2 CSDPN.2 CSDPR/L.2 CSTPR/L.2 SVVBN.e4 SVJBR/L.e4 STFCR/L.e3 STGCR/L.e3 SSDCN.e3 SSDCR/L.e3 SDNCN.e2 SDJCR/L.e2 SCLCR/L.e2 PWLNR/L.d7 PTENN.d6 MTGNR/L.d6 MTJNR/L.d6 PTFNR/L.d5 PTDNR/L.d5 PTTNR/L.d5 PTGNR/L.d5 PRKNR/L.d4 PSDNN.d4 PSSNR/L.d4 PSBNR/L.d4 PRGCR/L.d3 PRGNR/L.d3 RS7.35.d2 PDJNR/L.d2 PCBNR/L.d2 PCLNR/L.d2 CKUNR/L.i3 CTKPR/L.i2 SVQBR/L.h4 SSKCR/L.h3 SDUCR/L.h2 SCLCR/L.h2 CSBPR/L.2 PCLNR/L.g2 CTGPR/L.4
. Tuning. a. SMX P insets.b. SMX U insets.c. SMX S insets.a1.a11.b1.b6.c1.c7.d. SMX P toolholdes o extenal tuning.e. SMX U toolholdes o extenal tuning.. SMX S toolholdes o extenal tuning.d1.d7.e1.e4.1.5.g. SMX P toolholdes o intenal tuning.h. SMX U toolholdes o intenal tuning.i. SMX S toolholdes o intenal tuning.g1.g3.h1.h4.i1.i3.j..k. Spae pats Technical inomation.j1..j6.k1.k
. Summay o tuning insets geometies Roughing Medium Finishing 61 15 71 CF CM CR UF UR Fo mateials with shot chips.nm.cmw
. Code key, indexable insets ISO C N M G 4 15 15 CF 1 2 3 4 5 6 7 8 9 1 1 Insets shape 85 82 8 55 B C D 75 E H 55 K L 86 M O P R 35 8 S T V W 2 Cleaance angle B C 3 5 D 15 E 2 F G N P 3 O Speciic desciption 7 11 3 Toleances IC and s C S W D T K R V Class s G M U Class IC IC mm 3,97 5, 5,56 6, 6,35 8, 9,5 1, ±.13 Toleance class G M U ±. ±.5 ±.8 Class IC IC mm,,7 15,875, 19,5 2, Class IC IC mm,,4 31,75, Toleance class G M U ±. ±.8 ±.13 ±. ±.1 ±.18 Toleance class G M U ±. ±. ±.13 ±.15 ±. ±. 4 Insets type M G T W Q N R F X Special design
. Code key, indexable insets ISO C N M G 4 15 15 CF 1 2 3 4 5 6 7 8 9 1 5 Insets size = cutting edge lenght, l mm C D R S T V W K IC mm IC 3,97 5, 5,56 6, 6,35 8, 9,5 1,,,7 15,875, 19,5 2,,,4 31,75, 5/ 7/ 1/4 3/8 1/2 5/8 3/4 1 5/4 6 9 19 6 7 11 15 5 8 9 1 15 19 2 31 9 15 19 6 9 11 22 27 33 11 22 6 8 Fo inset shape K(KNUX) only the theoetical cutting edge lenght is indicated 6 Inset thickness, s mm 7 Nose adius 8 Cutting edge condition 9 Tool style, eed diection S e F E Shap cutting edge R k S ERteated cutting edge T Negative land L k IC u mm M IC in mm IC ь mm IC u inch IC in inch IC ь inch S Negative land and ER teated cutting edge N k k 1 Manuactues option X Chipbeake code
.a SMX P insets SMX P CNM CNMM CNMG DNM DNMM DNMG.a2.a2.a3.a4.a4.a5 PNE PNM PNMX.a5.a5.a5 RCMX RCMT RCMW.a6.a6.a6 RNG RNMG SNM.a6.a6.a7 SNMM SNMG SNMX.a7.a8.a9 TNM TNMG TNMM.a9.a1.a11 TNUX.a11 WNM.a WNMG.a PNUM.a13 WNUM.a13 a1
.a SMX P insets SMX P 8 s Dimensions I.9 19.1 19.3 IC s.7 4.76 15.875 6.35 19.5 6.35.41.2.81.6.81.6 Ød 5.2 6.4 7.9 IC Ød P M K N S H I SMX P Odeing code Fo mateial with shot chips 19 CNM CNM CNM CNM CNM CNM CNM CNM 44 48 4 6 6 1968 196 196 8 s Dimensions I IC s Ød.9.7 4.76.41.6 5.2 19 19.3.6 19.5.4 6.35 9.52.82.4 2.4 7.9 9.1 IC Ød P M K N S H I SMX P Odeing code Medium 19 CNMM CNMM CNMM CNMM CNMM CNMM CNMM CNMM CNMM 44 48 4 4 1968 196 196 19624 924HR CNMM CNMM CNMM 4471 4871 471 Roughing CNMM 4CR 19 CNMM 196CR 19 CNMM 19671 Fist choice Second choice a2
.a SMX P insets 8 s Dimensions I IC s Ød.9.7 4.76.41.6 5.1.1 15.875 6.35.81.6 6.4 19 19.3 19.5 6.35.81.6 7.9.6.4 9.52 2.4 9.1 SMX P IC Ød P M K N S H I SMX P Odeing code CNMG 4461 CNMG 4861 Finishing CNMG 44CF CNMG 48CF CNMG CNMG CNMG CNMG 44 48 4 4 CNMG CNMG CNMG 4415 4815 415 CNMG CNMG CNMG 44CM 48CM 4CM Medium CNMG CNMG CNMG 68CM 6CM 6CM 19 CNMG CNMG CNMG 1968 196 196 19 CNMG CNMG 196815 19615 19 CNMG CNMG CNMG 1968CM 196CM 196CM CNMG CNMG CNMG 48CR 4CR 4CR CNMG 6CR Roughing 19 CNMG CNMG CNMG 1968CR 196CR 196CR CNMG 924CR a3 Fist choice Second choice
.a SMX P insets I s Dimensions I IC s Ød 11 11.6 9.5 4.76.41.2 3.81 15 15.5.7 6.35.41.6 5.2 SMX P 55 Ød P M K N S H IC SMX P 11 DNM DNM DNM Odeing code 1144 1148 114 Fo mateial with shot chips 15 DNM 1564 DNM 1568 DNM 156 DNM 156 s Dimensions I IC s Ød 15 15.5.7 6.35.41.2 5.2 I 55 Ød P M K N S H IC SMX P 15 DNMM DNMM DNMM Odeing code 156471 156871 15671 Roughing Fist choice Second choice a4
.a SMX P insets I s Dimensions I IC s Ød 11 11.6 9.5 4.76.41.2 3.81 15 15.5.7 4.76.41.6 5.2 15 15.5.7 6.35.41.6 5.2 SMX P 55 Ød P M K N S H IC SMX P Odeing code Finishing 15 15 DNMG DNMG DNMG DNMG DNMG DNMG DNMG 1544CF 1548CF 1564CF 1568CF 156461 156861 15661 11 DNMG DNMG DNMG 1144CM 1148CM 114CM Medium 15 DNMG DNMG DNMG DNMG DNMG DNMG 1544CM 1548CM 154CM 1564CM 1568CM 156CM 15 DNMG DNMG DNMG DNMG 156415 156815 15615 15615 Roughing 15 DNMG DNMG DNMG DNMG DNMG 1568CR 154CR 154CR 156CR 156CR s Dimensions I IC s Ød 11 11. 15.785 4.76.8 6.35 11 11. 15.785 4.76.8 5.2 IC Ød P M K N S H I SMX P 11 PNM Odeing code 1148 Fo mateial with shot chips 11 PNE 1148 PNE 114 11 PNMX 1148 a5 Fist choice Second choice
.a SMX P insets SMX P Dimensions 1 2 IC s Ød 1. 3.18 3.6. 4.76 4.2. 6.35 5.2 (5.56MO) 2. 6.35 6.5. 7.94 7.2 (8.UK). 9.52 9.7 P M K N S H SMX P Odeing code Finishing 1 RCMX 13 RCMX 13MO Medium Finishing Roughing Medium SMX P RCMX RCMX RCMX RCMX 2 RCMX RCMX 4 4MO 6 6MO 26 26MO RCMT 6MO RCMW 7 RCMX RCMX RCMX RCMX RCMX 7CD 7MO 7MOUK 9MO 9MOCD Odeing code 9 RNMG 93 15 19 RNMG RNMG RNMG 15 RNG 4 156 196 156 Dimensions IC s Ød 9 9.5 3.18 3.8.7 4.76 5.2 15 15.875 6.35 6.3 19 19.5 6.35 7.9 P M K N S H Fist choice Second choice a6
.a SMX P insets s IC Ød Dimensions I IC s Ød 9 9.5 9.5 3.28.8 3.8.7.7 4.76.83. 5.2 15 15.9 15.875 6.35 1.22.4 5.2 19 19. 19.5 6.35.81.6 7.9.4.4 7.94 2.4 9.1 SMX P P M K N S H I SMX P 9 SNM Odeing code 938 Fo mateial with shot chips 15 19 SNM 44 SNM 48 SNM 4 SNM 4 SNM 424 SNM 43 SNM SNM SNM SNM SNM 156 156 1968 196 196 SNM 724 IC s Ød Dimensions I IC s Ød 9 9.5 9.5 3.18.4.8 3.8.7.7 4.76.81.6 5.2 15 15.9 15.875 6.35 1.22.4 5.2 19 19. 19.5 6.35.82.4 7.9.4.4 9.52 1.62.4 9.1 P M K N S H I SMX P SNMM SNMM SNMM Odeing code 4471 4871 471 19 SNMM 19671 Roughing 9 SNMM SNMM SNMM SNMM SNMM SNMM 15 SNMM SNMM SNMM 19 SNMM SNMM SNMM SNMM SNMM SNMM 934 938 44 48 4 4 156 156 15624 1968 196 196 19624 7 724 a7 Fist choice Second choice
.a SMX P insets s IC Ød Dimensions I IC s Ød 9 9.5 9.5 3.18.4.8 3.8.7.7 4.76.41.6 5.2 15 15.9 15.875 6.35 1.62.4 5.2 19 19. 19.5 6.35 1.21.6 7.9.4.4 7.94 1.62.4 9.1 SMX P P M K N S H I SMX P SNMG Odeing code 4861 Finishing SNMG SNMG 44CF 48CF 9 SNMG SNMG 934 938 SNMG SNMG SNMG SNMG 44 48 4 4 15 SNMG 156 19 SNMG SNMG 196 196 SNMG SNMG 7 724 Medium SNMG SNMG SNMG 44CM 48CM 4CM 15 SNMG SNMG 156CM 156CM 19 SNMG SNMG SNMG 1968CM 196CM 196CM 9 SNMG 93815 SNMG SNMG SNMG 4415 4815 415 19 SNMG 19615 SNMG 715 Roughing 15 19 SNMG SNMG SNMG SNMG SNMG SNMG SNMG SNMG 48CR 4CR 4CR 156CR 156CR 1968CR 196CR 196CR Fist choice Second choice a8
.a SMX P insets IC s Dimensions I IC s Ød 9 9.5 9.5 3.18.8 3.8 15 15.9 15.875 6.35 1.2 7.9 19 19. 19.5 6.35 1.2 9.1 SMX P Ød P M K N S H I SMX P 9 SNMX Odeing code 938 Fo mateial with shot chips 15 19 SNMX SNMX 156 196 6 s Dimensions I IC s Ød 11 11. 6.35 4.76.4.8 2.3.5 9.5 4.76.41.6 3.8 22 22..7 4.76.81.6 5.2 IC Ød P M K N S H I SMX P Odeing code 11 TNM 1134 TNM 1138 Fo mateial with shot chips 22 TNM TNM TNM TNM 44 48 4 4 TNM 2244 TNM 2248 TNM 224 TNM 224 a9 Fist choice Second choice
.a SMX P insets s 6 IC Dimensions I IC s Ød 11 11. 6.35 3.18.4.8 2.3.5 9.5 4.76.41.2 3.8 22 22..7 4.76.41.6 5.2 SMX P Ød P M K N S H I SMX P 11 TNMG TNMG Odeing code 1134CF 1138CF Finishing TNMG TNMG TNMG 4461 4861 461 22 TNMG TNMG TNMG 224861 22461 22461 11 TNMG TNMG 1134 1138 11 TNMG 113415 TNMG TNMG TNMG 44 48 4 Medium TNMG TNMG TNMG TNMG TNMG TNMG 4415 4815 415 44CM 48CM 4CM 22 TNMG TNMG TNMG TNMG 2244 2248 224 224 22 TNMG TNMG TNMG TNMG 224415 224815 22415 22415 22 TNMG TNMG TNMG 2244CM 2248CM 224CM Roughing TNMG TNMG 22 TNMG TNMG TNMG 48CR 4CR 2248CR 224CR 224CR Fist choice Second choice a1
.a SMX P insets 6 s Dimensions I IC s Ød.5 9.5 4.76.41.6 3.8 22 22..7 4.76.81.6 5.2 SMX P IC Ød P M K N S H I SMX P Odeing code TNMM 44 TNMM 48 TNMM 4 Medium 22 TNMM TNMM TNMM TNMM 2244 2248 224 224 TNMM TNMM TNMM 4471 4871 471 Roughing 22 TNMM TNMM TNMM 224471 224871 22471 6 IC Dimensions I IC s Ød.5 9.5 4.76.8 3.81 P M K N S H I SMX P Odeing code TNUX 48R14 Roughing and medium a11 Fist choice Second choice
.a SMX P insets SMX P Dimensions I IC s Ød.5 9.5 4.76.4.8 4.4 P M K N S H SMX P VNM VNM Odeing code 44 48 Medium Medium IC SMX P 8 8 8 I WNMG WNMG WNMG WNMG WNMG s Ød Odeing code 848QM 84QM 844CM 848CM 84CM Dimensions I IC s Ød 8 8..7 4.76.41.2 5.2 P M K N S H 8 WNMG WNMG 848CR 84CR Roughing 8 WNMG 848CFM Fist choice Second choice a
.a SMX P insets 8 s Dimensions I IC s Ød 8 8..7 4.76.8 5.2 1 1. 15.875 4.76.8 6.35. 19.5 6.35. 7.93 SMX P IC Ød P M K N S H I SMX P 8 WNUM Odeing code 848 1 WNUM 148 WNUM 6 s Dimensions I IC s Ød 11 11. 15.785 4.76.8 6.35 13 13. 19.5 6.35 1.2 7.93 IC Ød P M K N S H I SMX P 11 PNUM Odeing code 1148 13 PNUM 136 Medium Medium a13 Fist choice Second choice
Notes
.b SMX U insets SMX U CCMT CCMW DCMT DCMW SCMT SCMW.b2.b2.b3.b3.b4.b4 TCMTUF TCMTUR TCMW VBMT.b5.b5.b5.b6 b1
.b SMX U insets SMX U 8 s Dimensions 6 9 I 6.5 9.7.1 IC s 6.35 2.38 9.5 3.97 15.875 5.5.2.8.2.8.8 Ød 2.8 4.4 5.5 IC Ød P M K N S H I 7 SMX U Odeing code 6 CCMT 624UF Roughing Medium Finishing 9 CCMT CCMT CCMT 9TUF 9T34UF 58W 9 CCMT 9T34UR CCMT 9T38UR 8 s Dimensions I IC s Ød 6 6.5 6.35 2.38.2.8 2.8 9 9.7 9.5 3.97.2.8 4.4.1 15.875 5.5.8 5.5 IC Ød P M K N S H I 7 SMX U 6 CCMW Odeing code 624 9 CCMW CCMW 9T34 9T38 Finishing CCMW 58 Fist choice Second choice b2
.b SMX U insets I s Dimensions I IC s Ød 11 11.6 9.5 3.97.41.2 4.4 SMX U 7 55 Ød P M K N S H IC SMX U Odeing code 11 DCMT 11T34UR DCMT 11T38UR Roughing s Dimensions I IC s Ød 11 11.6 9.5 3.97.41.2 4.4 I 7 55 Ød P M K N S H IC SMX U Odeing code 11 DCMW 11T34 Fo mateial with shot chips b3 Fist choice Second choice
.b SMX U insets Dimensions IC s Ød 38 38.1 9.5 3.2 9.2 SMX U P M K N S H SMX U Odeing code 38 SCMT 389 38 SCMT 389TS Roughing 38 SCMT 389HR Dimensions I IC s Ød 9 9.5 9.5 3.97.4.8 4.4 P M K N S H SMX U Odeing code 9 SCMW 9T38 Fo mateial with shot chips Fist choice Second choice b4
.b SMX U insets SMX U 6 s Dimensions 11 22 I 11..5 22. IC s 6.35 2.38 9.5 3.94.7 3.94.2.8.4.8.8 Ød 2.8 4.4 4.4 IC Ød P M K N S H I 7 SMX U Odeing code 11 TCMT 12UF TCMT 18UF Roughing Finishing TCMT 22 TCMT 11 TCMT T34UF 2248UF 14UR 6 s Dimensions I IC s Ød 11 11. 6.35 2.38.2.8 2.8.5 9.5 3.94.4.8 4.4 22 22..7 3.94.8 4.4 IC Ød P M K N S H I 7 SMX U 11 Odeing code TCMW 12 TCMW 18 Fo mateial with shot chips TCMW T34 22 TCMW 2248 b5 Fist choice Second choice
.b SMX U insets SMX U s Dimensions I IC s Ød.6 9.5 4.76.41.2 4.4 I Ød 35 5 P M K N S H IC SMX U Odeing code VBMT 44UR VBMT 48UR Roughing Fist choice Second choice b6
.c SMX and SMX S insets SMX SMX S KNUX KNUX 22 SPGN SPGR SPMR SPUN.c2.c2.c3.c3.c4.c4 TNGN TNUN TPGN TPUN TPGR TPMR.c5.c5.c6.c6.c7.c7 c1
.c SMX and SMX S insets SMX SMX S s Dimensions I IW s.5 9.5 4.76.51.5 55 IW P M K N S H I SMX Odeing code KNUX 45R11 KNUX 45L11 KNUX 45R KNUX 45L Finishing KNUX KNUX KNUX KNUX KNUX KNUX KNUX KNUX 41R11 41L11 41R 41L 415R 415L 415R13 415L13 s Dimensions I IW s 22 22. 9.5 4.76 1.5 IW P M K N S H 55 I SMX Odeing code 22 KNUX 22415L Finishing Fist choice Second choice c2
.c SMX and SMX S insets SMX SMX S (T13S) Dimensions 9 15 19 I IC s 9.5 9.5 3.18.41.2.7.7 3.18.3. 15.87 15.875 4.76 1.6 19.5 19.5 4.76. T13.5/15 S.2/2 11 P M K N S H SMX 9 Odeing code SPGN 934 SPGN 938 SPGN 93 Roughing SPGN SPGN SPGN SPGN SPGN SPGN SPGN SPGN 3 34 38 3 33 3 3T13 3T13 15 SPGN 154 15 SPGN 1548S 19 SPGN 194 SPGN 1942 Dimensions I IC s 9 9.5 9.5 3.18.4.8.7.7 3.18.41.2 11 P M K N S H SMX S 9 SPGR SPGR Odeing code 934 938 SPGR 34 SPGR 38 SPGR 3 Roughing c3 Fist choice Second choice
.c SMX and SMX S insets SMX SMX S Dimensions 9 I IC s 9.5 9.5 3.18.4.8.7.7 3.18.41.2 11 P M K N S H SMX S 9 Odeing code SPMR 934 SPMR 938 SPMR SPMR SPMR 34 38 3 Finishing (TS) Dimensions I IC s 9 9.5 9.5 3.18.4.8 15.7 15.875.7 15.875 3.18 4.76.41.2 1.6 19 19..4 19.5.4 4.76 6.35.41.6 1.62. S.2/2 T.6/ 11 P M K N S H SMX Odeing code 9 SPUN SPUN 934 938 Finishing SPUN SPUN SPUN 34 38 3 15 SPUN 154T 15 SPUN 154S Medium 19 SPUN SPUN SPUN 1944 194 194 SPUN SPUN 6T 62T Fist choice Second choice c4
.c SMX and SMX S insets SMX (T13T24) Dimensions I IC s 6.5 9.5 3.15 1.21.6.5 9.5 4.76.81.6 22 22..7 6.35 1.6 SMX S T13 T24.15/15.2/ P M K N S H SMX TNGN TNGN Odeing code 3 3 TNGN TNGN TNGN 48 4 4 Medium TNGN TNGN 4T13 4T24 22 TNGN 226 22 TNGN 226T24 6 Dimensions I IC s.5 9.5 3.15.81.2.5 9.5 4.76.81.6 P M K N S H SMX Odeing code TNUN 38 TNUN 3 TNUN TNUN TNUN 48 4 4 Medium c5 Fist choice Second choice
.c SMX and SMX S insets SMX SMX S 6 s Dimensions 11 22 I IC s 11. 6.35 3.18.1.6.5 9.5 3.18.3. 22..7 4.76.3. IC P M K N S H I 11 SMX Odeing code 9 TPGN 924 Medium Roughing Medium IC SMX 11 TPGN 113 TPGN TPGN 1134 1138 TPGN 113 TPGN TPGN 3 34 TPGN 38 TPGN 3 TPGN 3 TPGN 33 TPGN 48 22 TPGN 224 TPGN 2242 TPGN 2248 TPGN 224 TPGN 224 TPGN 2243 6 I 11 TPUN TPUN TPUN TPUN TPUN TPUN TPUN 11 s Odeing code 1134 1138 113 34 38 3 3 Dimensions I IC s 11 11. 6.35 3.18.41.6.5 9.5 3.18.41.6 22 22..7 4.76.83. 33.5 18.7 6.35 2. P M K N S H TPUN TPUN 48 4 Roughing 22 TPUN TPUN TPUN 2248 224 2243 33 TPUN 3362 Fist choice Second choice c6
.c SMX and SMX S insets SMX SMX S 6 s Dimensions I IC 9 9.6 5.556 11 11. 6.35.5 9.5 s 2.38 3.18 3.18.2.8.4.8.41.2 IC P M K N S H I 11 SMX S 9 Odeing code TPGR 922 TPGR 924 TPGR 928 11 TPGR 113421 Finishing 11 TPGR TPGR 1134 1138 TPGR TPGR TPGR 34 38 3 6 s Dimensions I IC s 9 9.6 5.556 2.38.2.8 11 11. 6.35 3.18.4.8.5 9.5 3.18.41.2 IC P M K N S H I 11 SMX S Odeing code 9 TPMR TPMR TPMR 922 924 928 Finishing 11 TPMR TPMR 1134 1138 TPMR TPMR TPMR 34 38 3 Medium c7 Fist choice Second choice
Notes
. Code key holde o extenal tuning ISO P S K N R 2 2 15 K 15 1 2 3 4 5 6 7 8 9 1 1 Clamping designation C M P S Top clamping Top and hole clamping Hole clamping Scew clamping 2 Insets shape 3 Holde style, enteing angle C D B D E F 8 55 9 75 45 6 9 K 55 R G H J K L 9 17 3' 93 75 95 S T M N Q R S 5 63 117 75 45 V 35 W 8 T U V Y(X) Y(Z) 6 93 72 85 85
. Code key holde o extenal tuning ISO P S K N R 2 2 15 K 15 1 2 3 4 5 6 7 8 9 1 4 Cleaance angle on majo cutting edge ah 5 Hand o tool 6 Shank height B C R 5 7 k h1 h D E F 15 N 2 L k 7 Shank widht N P O k k 11 b 8 Tool lenght 9 Cuting edge lenght C D R l = B = 4 C = 5 D = 6 E = 7 F = 8 G = 9 H = 1 J = 11 K = 1 L = 14 M = 15 N = P = 17 Q = 18 R = 2 S = T = 3 U = 35 V = 4 W = 45 Y = 5 X = SPECIL S W T К V X 1 Manuactues option Chipbeake code
.d SMX P toolholdes o extenal tuning SMX P PCLNR/L.d2 PCBNR/L.d2 PDJNR/L.d3 RS7.35.d3 PRGNR/L.d3 PRGCR/L.d3 PSBNR/L.d4 PSSNR/L.d4 PSDNN/L.d4 PRKNR/L.d4 PTGNR/L.d5 PTTNR/L.d5 PTDNR/L.d5 PTFN/L.d5 MTJNR/L.d6 MTGNR/L.d6 PTENN.d6 PWLNR/L.d7 d1
.d SMX P toolholdes o extenal tuning SMX P SMX P Leve PCLNR 2 PCBNR 2 CNMM CNMG CNM K 95 K 75 Insets angle Insets angle Insets angle Odeing code 9 PCLNR/L PCLNR/L PCLNR/L H9 22K9 M9 h=h 1 2 b 2 Dimensions (mm) 1 1 15 I 2 1 γ λ 2 6 6 27 6 6 27 6 6 Spae pats Leve Scew Shim Shim pin 174.384M 174.382M 52 2 Insets to use CNMG 938 CNMG 938 CNMG 938 PCLNR/L H 1 26.1 2 6 6 174.3848M 174.3858 CNMG 48 PCLNR/L 22K 2 2 1 29.4 6 6 PCLNR/L M 15 3 6 6 174.3841M 174.3821 171.3185M CNMG 48 CNMG 48 PCLNR/L P 17 3 6 6 CNMG 48 PCLNR/L HM 1 36.1 2 6 6 174.3848M 174.3858 171.3185M CNMG 48 PCLNR/L PCLNR/L M P PCLNR/L P 19 PCLNR/L M19 PCLNR/L P19 PCLNR/L P19 PCLNR/L 44S19 PCLNR/L 44S PCLNR/L 55T PCBNR/L M 15.6 6 6 CNMG 6 17.6 6 6 438.384 438.3831 171.31852 CNMG 6 17.6 4 6 6 CNMG 6 15 38 6 6 CNMG 196 17 38 6 6 CNMG 196 174.3842M 174.3822M 171.31851M 17 38 4 6 6 CNMG 196 4 4 37.8 5 6 6 CNMG 196 4 4 47 5 6 6 CNMG 924 174.3844M 174.3827 52 231 5 5 3 47 6 6 6 CNMG 924 15 29. 22 6 6 174.3841M 174.3821 171.3185M CNMG 48 PCBNR/L M 15 31.7 22 6 6 CNMG 6 PCBNR/L P 17 31.7 22 6 6 438.384 438.3831 171.31852 CNMG 6 PCBNR/L P 17 31.7 27 6 6 CNMG 6 19 PCBNR/L P19 17 37.9 27 6 6 CNMG 196 174.3842M 174.3822M 171.31851M PCBNR/L 44S19 4 4 37.2 35 6 6 CNMG 196 d2
.d SMX P toolholdes o extenal tuning SMX P SMX P Leve PDJNR/L 2 RS7.35 2 DNMM DNMG DNM K 93 Insets angle K 63 Insets angle Insets angle Odeing code 11 PDJNR/L PDJNR/L PDJNR/L PDJNR/L H11 22K11 M11 P11 Dimensions (mm) h=h 1 b I 2 1 1 3 2 2 2 1 3 15 3 17 3 γ λ 6 7 6 7 6 7 6 7 Spae pats Leve Scew Shim Shim pin 54 11 174.382M 174.1862(2.5) 52 51 Insets to use DNMG 1148 DNMG 1148 DNMG 1148 DNMG 1148 15 PDJNR/L PDJNR/L PDJNR/L 22K15 M15 P15 PDJNR/L P15 2 2 1 34.7 15 34.7 17 34.7 17 34.7 4 6 7 6 7 6 7 6 7 174.3847M 174.383 171.3585M 174.3861 DNMG 1568 DNMG 1568 DNMG 1568 DNMG 1568 15 R/LS7.35415 R/LS7.35515 4 5 35 145 36.5 6 6 155 36.5.8 6 6 174.3847M 174.383 171.3585M 174.3861 DNMG 1568 DNMG 1568 SMX P Leve PRGNR 2 PRGCR RCMX RNMG Insets angle Insets angle Insets angle 9 Odeing code PRGNR/L 22K9 h=h 1 2 Dimensions (mm) Spae pats Insets to use b I 2 1 γ λ Leve Scew Shim Shim pin 2 1 2.8 6 6 174.384M 174.382M 176.385 174.3863 RNMG 93 PRGNR/L M 15 27.2 6 6 174.3841M 174.3821 176.3851M 174.3861 RNMG 4 15 PRGNR/L P15 17 33.2 6 6 174.3843M 174.38 176.3854M 174.3864 RNMG 156 19 PRGNR/L P19 17 38. 4 6 6 174.3842M 174.3822M 176.3852M 174.3862 RNMG 156 1 PRGCR/L 22K1 2 2 1 176.3984 174.3834 176.3985 174.3863 RCMX 13 PRGCR/L M 15 176.39841 174.382M 176.39851 174.3863 RCMX 4 PRGCR/L P 17 176.39842 174.3833 176.39852 174.3867 RCMX 6 2 PRGCR/L P2 17 4 176.39843 174.38 176.39853 174.3864 RCMX 26 d3
.d SMX P toolholdes o extenal tuning SMX P SMX P Leve SNMM PSBNR 2 PSSNR 3 2 SNMG SNM K 75 Insets angle K 45 Insets angle Insets angle Odeing code 9 PSBNR/L PSBNR/L PSBNR/L PSBNR/L 15 PSBNR/L PSBNR/L PSBNR/L 19 PSBNR/L PSBNR/L PSBNR/L PSBNR/L 9 PSSNR/L PSSNR/L PSSNR/L PSSNR/L 15 PSSNR/L PSSNR/L PSSNR/L 19 PSSNR/L PSSNR/L Dimensions (mm) Spae pats h=h 1 b I 2 1 γ λ Leve Scew Shim Shim pin Insets to use H9 1 2.8 13 6 6 174.384M 174.382M 176.385 174.3863 SNMG 938 22K 2 2 1 27.5 17 6 6 SNMG 48 M 15 27.5 22 6 6 174.3841M 174.3821 176.3851M 174.3861 SNMG 48 P 17 27.5 22 6 6 SNMG 48 M15 15. 22 6 6 SNMG 156 P15 17. 22 6 6 438.384 438.3831 174.3857 174.3864 SNMG 156 P15 17. 27 6 6 SNMG 156 P19 17 39.2 27 6 6 SNMG 196 174.3842M 174.3822M 176.3852M 174.3862 44S19 4 4 41.5 35 6 6 SNMG 196 44S 4 4 47.5 35 6 6 SNMG 724 174.3844M 174.3827 174.3853M 174.3865 55T 5 5 3 47.5 43 6 6 SNMG 724 22K9 2 2 1 28. 8 174.384M 174.382M 176.385 174.3863 SNMG 938 22K 2 2 1 37.6 8 SNMG 48 M 15 37.6 8 174.3841M 174.3821 176.3851M 174.3861 SNMG 48 P 17 37.6 8 SNMG 48 M15 15 34. 8 SNMG 156 P15 17 34. 8 438.384 438.3831 174.3857 174.3864 SNMG 156 P15 17 34. 4 8 SNMG 156 P19 17 53.8 4 8 SNMG 196 174.3842M 174.3822M 176.3852M 174.3862 44S19 4 4 54. 5 8 SNMG 196 SMX P Leve PSDNN 2 PSKNR 2 SNMM SNMG SNM K 45 Insets angle K 75 Insets angle Insets angle Odeing code Dimensions (mm) h=h 1 b I 2 1 γ 9 PSDNN 11E9 1 1 7 2 5.3 7 PSDNN F9 8 2 6.3 7 PSDNN H9 1 21 8.3 7 PSDNN 22K 2 2 1 27.6 1.3 7 PSDNN M 15 27.6.8 7 PSDNN P 17 27.6.8 7 19 PSDNN P19 17 4.4 13 7 PSDNN P19 17 4.4.5 7 PSDNN 44S 4 4 48.8 21 7 9 PSKNR/L H9 1.5 2 λ 6 6 Spae pats Leve Scew Shim Shim pin 174.38451 174.3829 174.384M 174.382M 174.385 174.3863 174.3841M 174.3821 174.3851M 174.3861 174.3842M 174.3822M 174.3852M 174.3862 174.3844M 174.3827 174.3853M 174.3865 174.384M 174.382M 174.385 174.3863 Insets to use SNMG 938 SNMG 938 SNMG 938 SNMG 48 SNMG 48 SNMG 48 SNMG 196 SNMG 196 SNMG 724 SNMG 724 SNMG 938 PSKNR/L 22K 2 2 1 22.7 6 6 PSKNR/L M 15 22.7 6 6 174.3841M 174.3821 174.3851M 174.3861 PSKNR/L P 17 22.7 6 6 15 PSKNR/L M15 15 28.2 6 6 438.384 438.3831 174.3857 174.3864 19 PSKNR/L P19 17 37.5 4 6 6 174.3842M 174.3822M 174.3852M 174.3862 SNMG 48 SNMG 48 SNMG 48 SNMG 156 SNMG 196 d4
.d SMX P toolholdes o extenal tuning SMX P SMX P Leve PTGNR 2 PTTNR 2 TNMM TNMG TNM K 91 Insets angle K 6 Insets angle Insets angle 11 Odeing code PTGNR/L F11 h=h 1 Dimensions (mm) Spae pats Insets to use b I 2 1 γ λ Leve Scew Shim Shim pin 8 15.6 6 6 174.38461 174.3829 TNMG 1134 PTGNR/L PTGNR/L PTGNR/L H 22K M 2 2 1 2.2 2 6 6 1 2.2 6 6 15 2.2 6 6 174.384M 174.382M 179.385M 174.386 TNMG 48 TNMG 48 TNMG 48 22 PTGNR/L PTGNR/L PTGNR/L M22 P22 P22 15 28.7 6 6 17 28.7 6 6 174.3841M 174.3821 179.3852M 174.3861 17 28.7 4 6 6 TNMG 2248 TNMG 2248 TNMG 2248 11 PTTNR/L F11 8 19.1 11 6 6 174.38461 174.3829 TNMG 1134 PTTNR/L PTTNR/L H 22K 1 23.4 2 2 1.9 13 17 6 6 6 6 174.384M 174.382M 179.385M 174.386 TNMG 48 TNMG 48 22 PTTNR/L PTTNR/L M22 P22 15 17 31.9 22 31.9 22 6 6 6 6 174.3841M 174.3821 179.3852M 174.3861 TNMG 2248 TNMG 2248 SMX P Leve TNMM PTDNR 3 2 PTFNR 2 TNMG TNM K 45 Insets angle K 91 Insets angle Insets angle Odeing code 22 PTDNR/L PTDNR/L M22 P22 h=h 1 b Dimensions (mm) 15 17 I 2 1 47.5 27 47.5 27 γ 7 7 λ Spae pats Leve Scew Shim Shim pin 174.3841M 174.3821 179.3852M 174.3861 Insets to use TNMG 2248 TNMG 2248 PTFNR/L PTFNR/L PTFNR/L H 22K M 2 2 1 19.7 1 2.2 15 2.2 2 6 6 6 6 6 6 174.384M 174.382M 179.385 174.386 TNMG 48 TNMG 48 TNMG 48 22 PTFNR/L PTFNR/L PTFNR/L M22 P22 P22 15.2 17.2 17.2 4 6 6 6 6 6 6 174.3841M 174.3821 179.3852M 174.3861 TNMG 2248 TNMG 2248 TNMG 2248 d5
.d SMX P toolholdes o extenal tuning SMX P SMX P Clamp set MTJNR 2 MTGNR 2 TNMM TNMG TNM K 93 Insets angle K 91 Insets angle Insets angle Dimensions (mm) Spae pats Odeing code Insets to use h=h 1 b I 2 1 γ λ Clamp set Scew Shim Shim pin MTJNR/L 22K 2 2 1 3.8 6 6 TNMG 48 17.38821 17.38845 17.3852 17.387 MTJNR/L M 15 3.8 6 6 TNMG 48 22 MTJNR/L MTJNR/L M22 P22 15 34.8 17 34.8 6 6 6 6 17.388211 17.38845 17.3855 17.3871 TNMG 2248 TNMG 2248 22 MTGNR/L MTGNR/L M22 P22 15 17 34.8 34.8 6 6 6 6 17.388211 17.38845 17.3855 17.3871 TNMG 2248 TNMG 2248 SMX P Clamp set PTENN 2 TNMM TNMG TNM K 6 Insets angle Insets angle 22 PTENN PTENN PTENN Odeing code h=h 1 M22W P22W P22W b Dimensions (mm) I 2 1 γ λ 15 35.7 13 8 17 35.7 13 8 17 35.7.5 8 Spae pats Clamp set Scew Shim Shim pin 17.388241 17.38845 17.3855 17.3871 Insets to use TNMG 2248 TNMG 2248 TNMG 2248 d6
.d SMX P toolholdes o extenal tuning SMX P SMX P Leve h 1 PWLNR I 2 k 1 WNMG h K 95 Insets angle b Insets angle 8 Dimensions (mm) Spae pats Odeing code h=h 1 b I 2 1 γ λ Leve Scew Shim Shim pin Insets to use PWLNR/L 22K8 2 2 1.5.35 6 6 WNMG 648 PWLNR/L M8 15 28.3.35 6 6 174.3841M 174.3821 52.3318 174.3861 WNMG 648 PWLNR/L P8 17 28.3 4.35 6 6 WNMG 648 d7
Notes
.e SMX U toolholdes o extenal tuning SMX U SCLCR/L.e2 SDJCR/L.e2 SDNCN.e2 SSDCR/L SSDCN STGCR/L.e3.e3.e3 STFCR/L.e3 SVJBR/L.e4 SVVBN.e4 e1
.e SMX U toolholdes o extenal tuning SMX U SMX U Scew clamp SCLCR 2 CCMT CCMW K 95 Insets angle Insets angle 6 Odeing code SCLCR/L 88D6 SCLCR/L 11E6 h=h 1 b 8 8 1 1 Dimensions (mm) 6 7 I 2 1 13. 1 13. γ λ Spae pats Inset scew Shim Shim scew 5513 23 Insets to use CCMT 624 CCMT 624 9 SCLCR/L SCLCR/L SCLCR/L F9M H9 22K9 2 2 8 19.5 1 18. 2 5513 21 1 18. CCMT 9T38 CCMT 9T38 CCMT 9T38 SCLCR/L 22K 2 2 SCLCR/L M 1. 15 26. 5513 218 52 22 55 93 CCMT 48 CCMT 48 SMX U Scew clamp SDJCR 2 SDNCN 2 DCMT DCMW K 93 Insets angle K 63 Insets angle Insets angle 7 Odeing code SDJCR/L SDJCR/L SDJCR/L SDJCR/L 11E7 F7 H7 22K7 Dimensions (mm) h=h 1 b I 2 1 1 1 7 17 8 19 1 19 2 2 2 1 22 γ λ Spae pats Inset scew Shim Shim scew 5513 23 Insets to use DCMT 724 DCMT 724 DCMT 724 DCMT 724 11 SDJCR/L SDJCR/L SDJCR/L H11 22K11 2 2 M11 1 1 15 26. 2 26. 26 3. 5513 21 CCMT 11T38 CCMT 11T38 CCMT 11T38 11 SDNCN SDNCN SDNCN H11 22K11 M11 2 2 1. 8.8 1. 1.5 15. 13. 5513 21 CCMT 11T38 CCMT 11T38 CCMT 11T38 e2
.e SMX U toolholdes o extenal tuning SMX U SMX U Scew clamp SCMT SSDCR 2 SSDCN 2 SCMW K 45 Insets angle K 45 Insets angle Insets angle 9 Odeing code SSDCR/L H9 SSDCR/L 22K9 Dimensions (mm) h=h 1 b I 2 1 21.5 2 2 1. 1 17 22 γ λ Spae pats Inset scew Shim Shim scew 5513 21 52 421 55 91 Insets to use SCMT 9T38 CCMT 9T38 SSDCR/L 22K 2 SSDCR/L M 2 15.7 15.7 22 27 5513 218 52 422 55 93 SCMT 48 SCMT 48 9 SSDCN SSDCN F9M H9 8 15.5 1 15.5 6 8 5513 21 52 421 SCMT 9T38 SCMT 9T38 SMX U Scew clamp STGCR 2 STFCR 2 TCMT TCMW K 91 Insets angle K 91 Insets angle Insets angle 9 Odeing code STGCR/L STGCR/L 88D9 11E9 h=h 1 b 8 8 1 1 Dimensions (mm) I 2 1 γ λ 6 13.8 1 7 11.8 Spae pats Inset scew Shim Shim scew 5513 Insets to use TCMT 924 TCMT 924 11 STGCR/L STGCR/L F11 H11 8.3 1.3 5513 23 TCMT 1134 TCMT 1134 STGCR/L STGCR/L STGCR/L H 22K M 2 2 1 1 15. 26. 27. 2 5513 21 TCMT T38 TCMT T38 TCMT T38 9 STFCR/L STFCR/L 88D9 11E9 8 8 6 14. 1 1 1 7 14. 5513 TCMT 924 TCMT 924 11 STFCR/L STFCR/L F11 H11 8. 1. 2 5513 23 TCMT 1134 TCMT 1134 STFCR/L STFCR/L STFCR/L H 22K M 1 22. 2 2 2 1 22. 15 24. 5513 21 TCMT T38 TCMT T38 TCMT T38 e3
.e SMX U toolholdes o extenal tuning SMX U SMX U Scew clamp SVJBR 2 SVVBN 2 VBMT VBMW K 93 Insets angle K 72 3 ' Insets angle Insets angle Odeing code 11 SVJBR/L F11 SVJBR/L H11 SVJBR/L 22K11 Dimensions (mm) Spae pats h=h 1 b I 2 1 γ λ Inset scew Shim Shim scew Insets to use 8 27. VBMT 1134 1 27. 2 5513 23 VBMT 1134 2 2 1 27. VBMT 1134 SVJBR/L SVJBR/L SVJBR/L 22K M P 2 2 1 15 17 31.5 31.5 31.5 5513 21 VBMT 48 VBMT 48 VBMT 48 11 SVVBN SVVBN SVVBN F11 H11 22K11 2 2 8 1 1 27. 6.3 27. 8.3 27. 1.3 5513 23 VBMT 1134 VBMT 1134 VBMT 1134 SVVBN SVVBN SVVBN 22K M P 2 2 1 15 17 31.5 31.5 31.5 1.6 13.1 13.1 5513 21 VBMT 48 VBMT 48 VBMT 48 e4
. SMX S toolholdes o extenal tuning SMX SMX S CBPR/L.2 CSTPR/L.2 CSDPR/L.2 CSDPN.2 CSKPR/L.2 CTFPR/L.3 CTBPR/L.4 CTTPT/L.4 CTDPR/L CTGPR/L R/L S7.5.4.4.5 R/L S71.5.5 1
l. SMX S toolholdes o extenal tuning SMX S SMX S Top clamp h 1 CSBPR l 2 CSTPR l 2 SPMR SPGR l1 l1 SPUN SPGN h K 75 Insets angle b K 6 Insets angle b Insets angle Odeing code 9 CSBPR/L H9 CSBPR/L 22K9 Dimensions (mm) Spae pats Insets to use h=h 1 b I 2 1 γ λ Clamp set Shim Shim pin 1 22.7 13 6 SPMR 934 174.98 174.2853 174.1869 2 2 1 24.1 17 6 SPMR 934 CSBPR/L CSBPR/L 22K M 2 2 1 15 3.1 3.1 17 6 22 6 174.982 174.285 174.1865 SPMR 34 SPMR 34 CSTPR/L 22K 2 2 1 29.6 17 6 174.982 174.285 174.1865 SPMR 34 SMX S Top clamp h 1 CSDPR 3 1 CSDPN 1 SPMR SPGR l1 l2 l1 l 2 SPUN SPGN h K 45 Insets angle b K 45 Insets angle b Insets angle Odeing code CSDPR/L 22K CSDPR/L M h=h 1 b 2 2 Dimensions (mm) 1 15 I 2 1 γ λ 35. 22 6 35. 27 6 Spae pats Clamp set Shim 174.982 174.285 Shim pin 174.1865 Insets to use SPMR 34 SPMR 34 CSDPN CSDPN 22K M 2 2 1 15 29. 1.3 29..8 6 6 174.982 174.285 174.1865 SPMR 34 SPMR 34 2
. SMX S toolholdes o extenal tuning SMX S 1 SMX S Top clamp l 2 CSKPR h 1 SPMR SPGR l1 SPUN SPGN h K 75 Insets angle b Insets angle 9 Odeing code CSKPR/L H9 CSKPR/L 22K9 h=h 1 b 2 2 Dimensions (mm) I 2 1 γ λ 1 2. 2 6 1 2.5 6 Spae pats Clamp set Shim 174.98 174.2856 Shim pin 174.1869 Insets to use SPUN 938 SPUN 938 CSKPR/L M 15.4 6 174.982 174.285 174.1865 SPUN 38 SMX S Top clamp h 1 CTFPR k l2 TPMR TPGR l1 TPUN TPGN h K 91 Insets angle b Insets angle 9 Odeing code CTFPR/L 11E9 h=h 1 1 Dimensions (mm) b I 2 1 γ λ 1 7.5 Clamp set 172.981 Spae pats Shim Shim pin Insets to use SPUN 938 11 CTFPR/L CTFPR/L CTFPR/L F11 H11 22K11 8 15.6 1 14.4 2 2 1. 2 174.98 TPUN 1134 TPUN 1134 TPUN 1134 CTFPR/L CTFPR/L 22K M 2 2 1 15 2. 2. 174.982 175.285 174.1865 TPUN 38 TPUN 38 3
. SMX S toolholdes o extenal tuning SMX S SMX S Top clamp h1 CTGPR l2 9 CTBPR l 2 77 TPMR TPGR l1 l1 TPUN TPGN h K 91 Insets angle b K 75 Insets angle b Insets angle 9 Odeing code CTGPR/L 11E9 Dimensions (mm) Spae pats Insets to use h=h 1 b I 2 1 γ λ Clamp set Shim Shim pin 1 1 7 15. 6 172.981 TPGN 924 11 CTGPR/L CTGPR/L CTGPR/L F11 H11 22K11 2 2 8 17. 1 17. 2 1 19. 6 6 6 174.98 TPMR 1134 TPMR 1134 TPMR 1134 CTGPR/L CTGPR/L 22K M 2 2 1 15.1.1 6 6 174.982 175.285 174.1865 TPMR 34 TPMR 34 11 CTBPR/L CTBPR/L F11 H11 8 1 19.2 2 11 13 6 6 174.98 TPMR 1134 TPMR 1134 SMX S Top clamp h1 CTTPR l 2 61 CTDPR l 2 44 l3 1 TPMR TPGR l 1 l 1 TPUN TPGN h K 6 Insets angle b K 45 Insets angle b Insets angle 9 Odeing code CTTPR/L 11E9 h=h 1 1 Dimensions (mm) b I 2 1 γ λ 1 7.4 9 6 Clamp set 172.981 Spae pats Shim Shim pin Insets to use TPGN 924 11 CTTPR/L 22K11 2 2 1 23.4 17 6 174.98 TPUN 1134 CTTPR/L CTTPR/L 22K M 2 2 1 28.2 15 28.2 17 22 6 6 174.982 175.285 174.1865 TPUN 38 TPUN 38 11 CTDPR/L CTDPR/L F11 H11 8 1 22. 22. 13 17 6 6 174.98 TPMR 1134 TPMR 1134 CTDPR/L CTDPR/L 22K M 2 2 1 27.4 15 27.4 22 27 6 6 174.982 175.285 174.1865 TPMR 34 TPMR 34 4
. SMX S toolholdes o extenal tuning SMX S SMX S Top clamp h1 R/L S71.5 l2 R/L S7.5 l2 l1 l1 h KNUX K 93 Insets angle b K 63 Insets angle b Insets angle Odeing code R/LS71.5M R/LS71.5M R/LS71.54M R/LS71.55M Dimensions (mm) h=h 1 b I 2 1 γ 15. 28.7 6 18. 28.7 6 4 2. 28.7 6 5 2. 35. 6 λ Spae pats R Clamp set L R Shim L Insets to use R17.5824 L17.58 R17.5851 L17.5851 KNUX 45 KNUX 45 R17.5824 L17.58 R17.5851 L17.5851 KNUX 45 KNUX 45 R/LS7.54M R/LS7.55M 4 5 145 155 37. 14.3 37..8 6 6 R17.5824 L17.58 R17.5851 L17.5851 KNUX 45 KNUX 45 5
Notes
. Code key o boing bas ISO S 4 V S C L C 15 R 15 1 2 3 4 5 6 7 8 9 1 1 Type o shank 2 S hank diamete 3 Tool lenght l mm А d Steel shank with intenal coolant suply S Steel shank l F = 8 H = 1 K = 1 M = 15 P = 17 Q = 18 R = 2 S = T = 3 U = 35 V = 4 W = 45 Y = 5 X = special 4 Clamping system 5 Insets shape 6 Holde style, entenig angle C M 8 55 О 9 О 95 C 55 D F L О 93 K R 17 1/2" P S J K S 35 T 8 О 75 О 93 V W K U
. Code key o boing bas ISO S 4 V S C L C 15 R 15 1 2 3 4 5 6 7 8 9 1 7 Cleaance angle on majo cutting edge ah 8 Hand o tool 9 Cutting edge length, l mm B C C D R 5 7 R E N S T V 2 P O L W К 11 1 Manuactues option When equied a supplementay symbol o max. 3 lettes may be added to the ISO code, sepaated by a dash, e.g.: D = extended dimension, + 1, mm E = extended dimension, + 2, mm R = ound shank W = wedge design X = back boing
.g SMX P toolholdes o intenal tuning SMX P PCLNR/L PDUNR/L PSKNR/L.g2.g2.g3 g1
k.g SMX P toolholdes o intenal tuning SMX P SMX P Leve h d PCLNR k CNMM D I 2 CNMG CNM = = K 95 Insets angle Insets angle Odeing code STPCLNR/L SUPCLNR/L S4VPCLNR/L Dimensions (mm) I 2 d h 23 3 37.8 17 3 35 4. 22 4 37 4 56. 27 D 4 5 γ λ 6 1 6 11 6 1 Spae pats Leve Scew Shim 438.38411 438.38M 174.3848M 174.3858 174.3841M 174.3821 171.3185M Insets to use CNMG 44 CNMG 44 CNMG 44 19 S5WPCLNR/L 19 5 47 45 63. 35 63 6 11 174.3849M 174.3822M 171.31851M CNMG 1968 SMX P Leve h d PDUNR DNMM D I 2 DNMG DNM = = K 93 Insets angle Insets angle Odeing code 11 STPDUNR/L 11 SUPDUNR/L 11 d h 23 3 Dimensions (mm) 3 35 I 2 35 4 17 22 D 4 γ 6 6 λ 11 1 Spae pats Live Scew Shim 54 1521 438.383 52 51 54 11 174.382M Insets to use DNMG 1148 DNMG 1148 15 S4VPDUNR/L 15 S5WPDUNR/L 15 4 37 5 47 4 56 27 5 45 63 35 63 6 6 11 1 174.3847M 174.383 171.3585M DNMG 1568 DNMG 1568 g2
.g SMX P toolholdes o intenal tuning SMX P SMX P Leve h d PSKNR k SNMM D I 2 SNMG SNM = = K 75 Insets angle Insets angle 19 Odeing code STPSKNR/L SUPSKNR/L S4VPSKNR/L S5WPSKNR/L 19 Dimensions (mm) I 2 d h 23 3 36.8 17 3 35 37.8 22 4 37 4 49.8 27 D 4 5 5 47 45 6. 35 63 γ λ 6 11 6 1 6 1 6 9 Spae pats Leve Scew Shim 438.38411 438.38M 174.3848M 174.3858 174.3841M 174.3821 174.3851M 174.3849M 174.3822M 174.3852M Insets to use SNMG 48 SNMG 48 SNMG 48 SNMG 196 g3
Notes
.h SMX U toolholdes o intenal tuning SMX U SCLCR/L SDUCR/L SSKCR/L STFCR/L SVQBR/L.h2.h2.h3.h3.h4 h1
.h SMX U toolholdes o intenal tuning SMX U SMX U Scew clamp h d SCLCR k CCMT D I 2 CCMW = = K 95 Insets angle CC... Insets angle 6 Odeing code S8KSCLCR/L 6 SMSCLCR/L 6 SRSCLCR/L 6 Dimensions (mm) I 2 d h 8 7 1 18. 5 11 15 24.5 9 15 2.5 11 D 1 2 γ λ 15 Spae pats Inset scew Shim Shim scew 5513 23 Insets to use CCMW 624 CCMW 624 CCMW 624 9 SRSCLCR/L 9M S2SSCLCR/L 9M STSCLCR/L 9M 15 2.5 11 2 2 18 3.7 13 8 23 3 45. 17 6 5513 21 CCMW 9T34 CCMW 9T34 CCMW 9T34 STSCLCR/L SUSCLCR/L S4VSCLCR/L 4 23 3 37 3 35 4 45. 5. 6. 17 22 4 5 6 1 8 5513 217 5513 218 52 22 55 91 55 93 CC.. 24 CC.. 24 CC.. 24 SMX U Scew clamp h d SDUCR k DCMT D I 2 DCMW = = K 93 Insets angle Insets angle Odeing code 7 S1KSDUCR/L 7 SMSDUCR/L 7 SRSDUCR/L 7 d 1 h 9 11 15 Dimensions (mm) I 2 1 19.8 7 15 22. 9 2 27. 11 D 13 2 γ λ 15 1 8 Spae pats Inset scew Shim Shim scew 5513 23 Insets to use DC.. 724 DC.. 724 DC.. 724 11 S2SSDUCR/L 11M STSDUCR/L 11M 2 18 23 3 3.4 46. 13 17 6 6 5513 21 DCMW 11T34 DCMW 11T34 h2
.h SMX U toolholdes o intenal tuning SMX U SMX U Scew clamp h d SSKCR k CCMT D I 2 CCMW = = K 75 Insets angle Insets angle 9 Odeing code SRSSKCR/L 9M S2SSSKCR/L 9M d 2 h 15 18 Dimensions (mm) 2 I 2.5 11 29.7 13 D 2 γ λ 1 6 Spae pats Inset scew Shim Shim scew 5513 22 Insets to use CCMW 9T34 CCMW 9T34 STSSKCR/L SUSSKCR/L 23 3 3 44.8 35 51. 17 22 4 8 1 5513 217 5513 218 52 422 55 93 CC.. 24 CC.. 24 SMX U Scew clamp h d STFCR k TCMT D I 2 TCMW = = K 91 Insets angle Insets angle 9 Odeing code S1KSTFCR/L 9 SMSTFCR/L 9 d h 1 9 11 Dimensions (mm) 1 15 I 2 22.5 28. 7 9 D 13 γ λ 15 1 Spae pats Inset scew Shim Shim scew 5513 Insets to use TCMT 924 TCMT 924 11 SMSTFCR/L 11 SRSTFCR/L 11 S2SSTFCR/L 11 11 15 2 18 15 3. 9 2 35. 11 2 29.7 13 1 6 3 5513 23 TCMT 12 TCMT 12 TCMT 12 STSTFCR/L M SUSTFCR/L S4VSTFCR/L 23 3 4 37 3 36.8 17 35 43.2 22 4 4 6. 27 5 6 1 8 5513 21 TCMT T34 TCMT T34 TCMT T34 h3
.h SMX U toolholdes o intenal tuning SMX U SMX U Scew clamp h d SVQBR k VBMT D I 2 VBMW = = K 17 3 Insets angle Insets angle 11 Odeing code Dimensions (mm) d h I 2 D γ λ SRSVQBR/L 11 15 2.4 13 22 7 S2SSVQBR/L 11 22 18 33.4 15 27 6 STSVQBR/L 11 23 3 39.4 18 33 4 Spae pats Inset scew Shim Shim scew 5513 23 Insets to use VB.. 1144 VB.. 1144 VB.. 1144 STSVQBR/L SUSVQBR/L S4VSVQBR/L 23 3 4. 18 33 6 3 35 43.6 22 4 8 4 37 4 64. 27 5 8 5513 21 VBMT 44 VBMT 44 VBMT 44 h4
.i SMX S toolholdes o intenal tuning SMX SMX S R/L S31.9 CFTPR/L CTKPR CKUNR/L.i2.i2.i2.i3 i1
.i SMX S toolholdes o intenal tuning SMX SMX S SMX S Top clamp SPMR SPGR d h = = R S31.9 I2 k SPGN D SPUN K 75 Insets angle dh8 Insets angle 9 Odeing code R S31.99 R S31.929 d h 15 2 18 Dimensions (mm) I 2 D 11 2 4 14.1 27 γ λ 3 3 6 Spae pats Clamp set Shim Shim pin 174.9831 Insets to use SP.. 934 SP.. 934 R S31.9 R S31.9 23 3 46 18 34 3 35 51 22.5 43 6 6 174.981 174.285 174.1865 SP.. 34 SP.. 34 SMX S Top clamp TPMR TPGR d h = = R S36.9 CTFPR I 2 k R S31.9 CTKPR I 2 k TPGN D TPUN K 91 Insets angle dh8 K 75 Insets angle dh8 Insets angle 9 Odeing code R/L S36.99 Dimensions (mm) Spae pats d h I 2 D γ λ Clamp set Shim Shim pin 11 14 24. 9 6 3 172.981 Insets to use TP.. 924 11 SMCTFPR/L 11 R/L S36.911 R/L S36.9211 11 15 24. 9 15 11 2 18 43 14.1 2 27 6 6 6 6 3 172.98261 174.9831 TP.. 1134 TP.. 1134 TP.. 1134 R/L S36.9 R/L S36.9 R/L S36.94 23 3 49. 18 34 3 35 54 22.5 43 4 37 315 54 28 5 6 6 6 174.981 174.982 175.285 174.1865 TP.. 34 TP.. 34 TP.. 34 9 R S31.99 11 14 24 9 6 3 172.981 TP.. 924 i2
.i SMX S toolholdes o intenal tuning SMX SMX S SMX Top clamp d SUCKUNR/L S4WCKUNR/L I 2 k h D KNUX K 93 Insets angle dg7 Insets angle Odeing code SUCKUNR/L S4WCKUNR/L Dimensions (mm) d h D 3 35 54 22 44 4 37 45 6 27 48 I 2 γ λ 6 1 6 8 Spae pats R Clamp set L R Shim L 17.58 17.5824 17.5851 17.5851 Insets to use KNUX 45 KNUX 45 i3
Notes
.j Spae pats ISO.j.1. Spae pats o SMX P toolhodes leve clamp.j.2. Spae pats o SMX U toolhodes scew clamp.j.3. Spae pats o SMX P toolholdes wedge clamp.j2.j3.j4.j.4.spae pats o SMX toolholdes wedge clamp.j.5.spae pats o SMX S toolholdes top clamp.j5.j6 j1
.j Spae pats o SMX P toolholdes leve clamp ISO.4.8 6.35 171.35851M 174.3871 174.3871 174.3872 174.3872 174.3871 174.3861 174.3861 174.3868 174.3862 174.3861.41.6.41.6.42.4.42.4 1.21.6 4.76 4.76 6.35 6.35 6.35 171.31.85M 171.31.85M 171.31.851M 171.31.851M 171.31.85M 174.1863(2.5) 174.1864(3.) 174.1864(3.) 174815 (4.) 174815 (4.) 174.1864(3.) 438.381 174.3858 174.3821 174.3822M 174.3822M 174.383 438.38411 174.3848M 174.3841M 174.3849M 174.3842M 174.3847M 1.62.4 1.62.4 1.21.6.4.8 4.76 4.76 4.76 4.76 174.3856 174.3856 179.3858 179.3853M 174.387 174.3871 174.3873 174.3872 174.387 174.387 174.3871 174.3873 174.387 174.3871 174.3871 174.3872 174.3872 174.3874 174.387 174.3871 174.3863 174.3861 174.3864 174.3862 174.3863 174.3863 174.3867 174.3864 174.3863 174.3861 174.3861 174.3868 174.3862 174.3865 174.386 174.3861.41.2.41.2.41.2.82.4.82.4 1.63.2.4.8 1.21.6 3.18 4.76 6.35 6.35 3.18 4.76 6.35 6.35 3.18 4.76 4.76 6.35 6.35 7.94 4.76 4.76 176.385 176.3851M 176.3854M 176.3852M 176.385 176.3851 176.3852 176.3853 174.385 174.3851M 174.3851M 174.3852M 174.3855M 174.3853M 179.385M 179.3852M 17.386(2.5) 174.1864(3.) 174.1864(3.) 174815 (4.) 17.3864(1.98) 17.386(2.5) 17.386(2.5) 174.1864(3.) 174.187(1.98) 17.386(2.5) 174.1863(2.5) 174.1864(3.) 174.1864(3.) 174815 (4.) 174815 (4.) 186843 17.3864(1.98) 17.386(2.5) 174.1864(3.) 174.382M 174.3821 174.38 174.3822M 174.3834 174.382M 174.3833 174.38 174.3829 174.382M 438.38M 174.3858 174.3821 174.3822M 174.3822M 174.3827 174.3829 174.382M 174.3821 174.384M 174.3841M 174.3843M 174.3842M 176.3984 176.39841 176.39842 176.39843 174.38451 174.384M 438.38411 174.3848M 174.3841M 174.3849M 174.3842M 174.3844M 174.38461 174.384M 174.3841M 5 4 1 Cutting edge lenght 19 15 9 15 19 1 2 9 Shank size Toolholdes Boing bas 22 44 22 4 5 Standad pats Optional pats Radius Shim pin 45 22 22 11 22 22 44 4455 4 Radius Shim pin Chim pin punch Shim Fo inset thickness Shim Fo inset thickness Level Scew Key (size, mm) 19 11 22 6 6 1 2 3 4 4 5 5 3 2 j2
.j Spae pats o SMX U toolholdes scew clamp ISO 2 1 Cutting edge lenght 6 9 11 9 9 11 11 Shank size Toolholdes Boing ba 8811 22 2 2 2 22 8811 1 2 4 22 22 4 Standad pats Optional pats 1 2 Inset scew (thead) Key (size, mm) Shim Fo inset thickness Radius Shim scew Key (size, mm) Shim Fo inset thickness 5513 23 (M2.5) 5513 21 (M3.5) 4.186 4.1864 5513 21 (M3.5) 4.1864 5513 21 (M3.5) 4.1864 5513 (M2.2) 5513 23 (M2.5) 5513 21 (M3.5) 4.186 4.186 4.1864 5513 23 (M2.5) 5513 21 (M3.5) 4.186 4.1864 Radius j3
.j Spae pats o SMX P toolholdes wedge clamp ISO 5 4 6 Cutting edge lenght 22 22W 3 2 1 Shank size Toolholdes Boing ba 22 Standad pats 1 2 3 4 5 6 Wedge set Wedge clamp set Key (size, mm) Shim Fo inset thickness Radius Pin Scew Key (size, mm) 17.38821 174.3863 (2.5) 17.3852 4.76.41.6 17.387 17.38845 174.1864 (3.) 17.38821 174.3864 (3.) 17.3855 4.76 17.3856 1.21.6 17.3871 17.38845 174.1864 (3.).4.8 17.388241 174815 (4.) 17.3855 4.76 17.3856 1.21.6 17.3871 17.38845 174.1864 (3.).4.8 j4
.j Spae pats o SMX toolholdes wedge clamp ISO 3 2 1 4 Cutting edge lenght 5 7 6 Shank size Standad pats 1 Toolholdes Boing ba Clamp ight hand Clamp let hand 5 17.5824 17.58 4 17.58 17.5824 2 3 4 5 6 7 Scew Key (size, mm) Sping Sping and pin Shim ight hand Shim let hand Fo inset thickness Radius Shim pin 17.58 6 5 174815 (4.) 17.5848 17.5841 R17.5851 L17.5851 4.76 1. 174.1866 17.5865 174815 (4.) 17.5848 17.5821 L17.5851 R17.5851 4.76 1. 174.1866 j5
.j Spae pats o SMX S toolholdes top clamp ISO 4 3 Cutting edge lenght 9 9 11 2 1 Shank size Toolholdes Boing ba 2 22 22 11 2 22 22 4 Standad pats 1 2 3 4 Clamp Key (size, mm) Shim Fo inset thickness Radius Shim pin 174.9831 174.1863 (2.5) 174.98 174.1863 (2.5) 174.2853 3.18.4.8 174.1865 174.1869 174.98 1 174.1864 (3.) 174.981 174.1864 (3.) 174.285 3.18.41.2 174.1865 174.982 174.1864 (3.) 174.285 3.18.41.2 174.1865 172.981 174.1862 (1.5) 172.98261 174.1863 (2.5) 174.9831 174.1863 (2.5) 174.98 174.1863 (2.5) 174.981 174.1864 (3.) 174.981 174.1864 (3.) 175.285 3.18.41.2 174.1865 174.982 174.1864 (3.) 175.285 3.18.41.2 174.1865 j6
.k Technical inomation ISO Selecting the coect tool and cutting data 1. Selecting clamping system 2. Selecting toolholde 3. Selecting the insets 4. Selecting the inset geometies 5. Selecting the inset size 6. Selecting the nose adius 7. Selecting the inset gade 8. Selecting the data ecommendations 9. Optimization and tool lie 1. Inset wea SMX P SMX U SMX S SMX k1
.k Technical inomation ISO 1. Select clamping system Сlamping systems: w SMX P w SMX U w SMX S w SMX Clamping system SMX P SMX U SMX S SMX Selecting the clamping system Extenal oughing tuning 5 2 2 4 Extenal inishing tuning 4 5 4 4 Intenal oughing tuning 5 2 2 4 Intenal inishing tuning 4 5 5 4 Chip low 5 5 3 3 Indexing time 5 2 4 3 ccessibility 4 5 5 5 SMX P Clamping system leve o wedge Use negative insets High stability Rough tuning SMX U Clamping system scew Use positive insets Good chip low Finish tuning SMX S Clamping system clamp set Use positive insets Rapid inset eplacement Medium Machining SMX Clamping system top clamping set Use KNUX and othe insets Copy tuning Wide aea o tuning k2
I.k Technical inomation ISO 2. Select toolholde o 9 o 75 ER ER GC VB d I 34 d 3. Selecting the inset k3
.k Technical inomation ISO 4.Geomety ecommendations Woking aea B C D E Machining type Exteme inishing Finishing Medium Machining Medium Roughing eed mm/o mm/ mm/o.5.15 (1).1.3.1.3 (1).2.5.2.5 (1).4 1..4 1. (1).6 1.5.5 1.5 (1).7 1.5 cutting depth a p mm mm mm. 2..5 2. 1.5 4. 3. 1. 6. 15. (1) Feed values o ound insets ISO P M K M K K Long chipping mateials Stainless steel Shot chipping mateials Heat esistant mateials Sot mateials Had mateials Intemittent Vibation tendencies Limited powe Woking aea B C D E B C D E B C D E B C D E B C D B C SMX P 61 SMX P 15 SMX P 71 SMX P NM SMX P NMG SMX P NMM RCMX RNMG SMX P CF SMX P CM SMX P CR SMX U UF SMX U UR SMX S PMR SMX S PGR SMX NUN SMX NGN SMX PUN SMX PGN SMX KNUX 11 SMX KNUX SMX KNUX 13 4 3 2354 133 1344 135 43 4 3 2345 54 1451 1442 1442 1343 1343 1343 1343 431 342 134 144 1 22 133 221 133 442 144 1 22 54 41 2442 2442 3553 3553 452 243 134 23 22 1111 4555 222 1111 34 2342 23 22 1111 3 441 2 2 4554 4554 4431 4431 431 3 134 22 22 11 4 11 344 231 22 22 11 43 31 355 355 431 3 134 33 33 21 2342 2342 2342 222 222 421 242 133 22 5 42 33 22 3 3 4 5 4 4 5 5 3 3 4 1 2 2 2 4 4 3 3 2 3 3 4 3 3 2 3 3 2 2 4 3 3 3 4 4 4 3 3 4 3 3 4 3 4 3 4 3 2 2 4 3 4 4 4 4 4 1 1 3 3 4 3 3 k4
.k Technical inomation ISO 5. Selecting the inset size a p k I a I Cutting depth (a p ) mm Enteing angle κ ( ) 1 2 3 4 5 6 7 8 9 1 15 Necessay eective cutting edge length (l a) mm 9 15 135 15 5 9 75 6 45 3 15 1. 1. 1.2 1.4 2. 3.9 2. 2.1 2.3 2.8 4. 7.7 3. 3.1 3.5 4.2 6. 11.6 4. 4.1 4.6 5.7 8. 15.5 l a=a p/cosκ 5. 5.2 5.8 7.1 1. 19.3 6. 6.2 6.9 8.5. 23.2 7. 7.2 8.1 9.9 14. 27. 8. 8.3 9.2 11.3. 3.9 9. 9.3 1.4.7 18. 34.8 1. 1.5 11.5 14.1 2. 38.6 15. 15.5 17.3 21.2 3. 58. Woking aea B C D E I I a L amax =1/2 x l I I a L amax =1/2 x l I I a L amax =1/4 x l I I a L amax =1/2 x l I a d L amax =.4xd I I a L amax =2/3 x l I I a L amax =1/4 x l I I a L amax =1/2 x l I I a L amax =1/3 x l I I a L amax =1/2 x l I I a L amax =1/4 x l I I a L amax =1/3 x l k5
.k Technical inomation ISO 6.Selecting the nose adius Nose adius Max. ecomended eed ε (mm) (mm/o) (mm/) (mm/o).4.8 1.2 1.6 2.4..35.4.7.5 1..7 1.3 1. 1.8 oughing [mm/] =.5 x nose adius n Rmax Rmax (μm) poile depth ε (mm) nose adius (mm/o, mm/) eed Rmax μm 1.6 1.8 2. 2.2 2.4 2.6 2.8 3. 3.5 4. 4.5 5. 6. Ra=CL= μm μin.3 11.8.35 13.8.4 15.7.44 17.5.49 19.2.53 2.8.58 22.7.63 24.6.71 27.8.8 31.4.9 35.2.99 38.5 1.2 47.2 RMS μm μin.33 13.1.39 15.3.44 17.4.49 19.4.54 21.3.59 23.1.64.2.7 27.3.79 3.9.89 34.8 1. 39.1 1.1 43.1 1.3 52.4 N N5 N6 Rmax μm 7. 8. 9. 1. 15. 2.. 27. 3. 35. 4. 45. 5. Ra=CL= μm μin 1.4 55.1 1.6 63. 1.8 71. 2. 79. 3.2 6. 4.4 173. 5.8 238. 6.3 247. 7.4 292. 8.8 346. 1.7 422..5 485. 14. 552. RMS μm μin 1.5 61.2 1.8 7. 2. 78.8 2.2 87.7 3.1 14. 4.9 192. 6.4 264. 7. 274. 8.2 4. 9.8 384. 11.9 468. 13.9 538. 15.5 613. N N7 N8 N9 N1 k6
.k Technical inomation ISO Poblem Cause Remedy Flank and notch wea a) Rapid lank wea sausing poo suace inish and out o toleance. a) too high cutting speed o insuicient wea esistance. Reduce the cutting speed. Select a moe wea esistant gade. Select an l2o 3 coated gade o steel machining. Fo wok hadening mateials select a smalle enteing angle o a moe wea esistant gade. b/c) Notch wea causting poo suace inish and isk o edge beakage. b/c) Oxidation o excessive attition wea caused by a had suace. Cate wea Excesive cate wea causing a weakened edge. Cutting edge beak though on the tailing edge causes poo suace inish. Diusion wea due to too high cutting tempeatues on the ake ace. Select an l2o 3 coated gade. Select a positive inset geomety. Reduce the eed (and speed) to obtain a lowe tempeatue. Plastic deomation Plastic deomation ( edge depession (a) o lankimpession (b)) leading to poo chip contol and poo suace inish. Risk o excesive lank wea lesding to inset beakage. too high tempeatue in combination with a high pessue. Select a hade gade with bette esistance to plastic deomation. a) educe cutting speed b) educe eed Biltup edge Builtup edge (B.U.E.) causing poo suace inish and cutting edge itteing when the B.U.E. is ton away. Wokpiece mateial is welded to the inset due to: Low cutting speed. Negative cutting geomety. "Sticky" mateial, e.g. cetain stainless steels and pue aluminium. Incease cutting speed. Select a positive geomety. Incease cutting speed dastically. I tool lie tuns out to shot, apply coolant in lage quantities. k7
.k Technical inomation ISO Poblem Cause Remedy Chip hammeing The pat o the cutting edge not in cut is damaged though chip hammeing. Both the top side and the suppot o the inset, can be damaged. The chips ae o an expessive lenght and ae delected against the cutting edge. Change the eed slightly. Selct an altenative inset geomety. Change the enteing angle o the holde. Fitteing Small cutting edge actues (itteing) causing poo suace inish and excessive lank wea. Gade too bittle. Inset geomety too wea. Builtup edge. Select toughe gade. Select an inset with a stonge geomety. Incease cutting speed o select a positive geomety. Themal cacks Small cacks pependicula to the cutting edge causing itteing and poo suace inish. Temal cacks due to tempeatue vaiations caused by: intemittent machining vaying coolant supply Select a toughe gade with bette esistance to themal shocks. Coolant should be appiled copiously o not at all. Inset beakage Inset beakage that damages not only the inset but also the shim and wokpiece. Gade too bittle. Excessive load on the inset. Inset geomety too weak. Inset size is too small. Select a toughe gade. Reduce the eed and/o the depth o cut. Select a stonge geomety, peeably a singe sided inset. Select a thicke/lage inset. k8
.k Technical inomation ISO 8. Select cutting data Dieence in hadness (HB) Mateial Non alloy cabon steel lloy steel High alloy steel Stainless steel Steel castings Malleble ion Cast ion Nodula SG ion Heat esistant alloys 8 1.26 1.26 6 1.18 1.14 4 1. 1.5 1.21 1.31 1.8 1. 1.7 1.11 2 1.7 1.5 1.1 1.1 1.13 1.3 1.1 1.3 1. 1. 1. 1. 1. 1. 1. 1. 1. +2.95.94.91.91.87.96.92.97 +4.9.91.84.85.8.92.86.95.9 +6.86.79.79.73.8.93 +8.83.75.91.82 Tool lie min 1 15 2 3 45 6 Coection acto min 1.1 1..95.9.87.8.7 Rm 2 N/mm HV HB HRc Sh Rm 2 N/mm HV HB HRc Sh Rm 2 N/mm HV HB HRc Sh Rm 2 N/mm HV HB HRc Sh 7 74 77 81 84 88 91 95 98 15 19 1 115 119 3 6 13 133 36 37 38 2 21 22 23 24 26 27 28 29 3 31 33 34 35 359 368 373 19.2 21.2 23. 24.7 26.1 27.6 29. 3.3 31.5.9 33.8 34.9 36. 37. 38. 38.9 28 29 3 31 33 34 35 36 37 39 4 41 42 43 44 45 46 47 48 137 14 144 147 151 154 158 1 5 8 172 175 179 182 186 189 193 196 2 39 4 41 42 43 44 45 46 47 48 49 5 51 52 53 54 55 56 57 385 393 4 47 4 423 429 435 441 45 457 465 474 482 489 496 53 511 52 39.8 4.7 41.5 42.3 43.2 44. 44.8 45.5 46.3 47. 47.7 48.3 49. 49.6 5.3 5.9 51.5 52.1 52.7 49 5 51 52 53 54 55 56 57 58 59 6 61 62 63 64 65 66 67 23 27 21 214 217 221 224 228 231 235 238 241 245 248 2 5 9 263 266 58 59 6 61 62 63 64 65 66 67 68 69 7 71 72 73 74 75 76 527 533 533 543 549 555 561 568 574 581 588 595 62 69 6 622 627 633 639 53.3 53.8 54.4 54.9 55.4 55.9 56.4 56.9 57.4 57.9 58.7 58.9 59.3 59.8 6.2 6.7 61.1 61.5 61.9 68 69 7 71 72 73 74 75 75 76 77 78 79 8 81 82 83 83 84 27 273 277 28 284 287 291 294 298 31 35 38 3 315 319 2 6 9 77 78 79 8 81 82 83 84 85 86 87 88 89 9 91 92 93 94 644 65 656 661 666 67 677 682 62.3 62.7 63.1 63.5 63.9 64.3 64.6 65. 65.3 65.7 66. 66.3 66.6 66.9 67.2 67.5 67.7 68. 85 86 86 87 87 88 89 89 9 9 91 91 92 92 k9
.k Technical inomation inset gades o tuning ISO BSIC GRDES SUPPLEMENTRY GRDES hadened mateials. heat esistans supe alloys. non eous metals. cast ion, chilled cast ion, shot chipping melleable ion, hadened steel, non eous metals, plastics, wood. steel, cast steel, manganese steel, alloy cast ion austenitic steels, malleable ion, ee cutting steel. steel, cast steel, long chipping, malleable, ion. k1
.k Cutting speed ecommendations o tuning 2C2 2C 4C15.1.4.8.1.4.8.1.4.8 382618 3422 215 3617 2113 319 453 43118 3829 31 28214 2141 97 313 2718 188 1586 43118 3829 241 28 2141 8453 97 1375 4 2C15.2.4.6 188 74 85 3 8553 2C2.2.4.6 2418 1475 241 28 1586 2C.2.4.6 2218 186 97 2117 975 1186 18141 754 964 23195 185 14118 221915 9745 1317 2 175 175 2 139 151911 158 18149 1317 2 8645 975 191511 75554 856545 18149 7453 8554 18145 75535 1196 1714 7453 185 15117 642 964 159 13118 3C15 14118 17 4C15 96 95755 4C.2.4.6.2.4.6.2.4.6 262118 262118 2 214 214 18131 29242 29242 272217 2319 2319 213 221714 221714 21513 21513 21513 151 151 151 97 k11
.k Cutting speed ecommendations o tuning 4C 4C35 4C4 752.1.4.8.1.4.8.1.4.8.1.4.8 4218 383 362814 24 214 282 215 28213 271811 2155 221713 21511 383 362814 23159 19117 214 27 1485 4 28213 19117 74 9535 23159 14 1485 74 1374 635 19117 1486 4 1485 13745 74 14 35 953 2C35 2C4 4C 4C35 4C4 752 7535 K1F P6.2.4.6.2.4.6.2.4.6.2.4.6.2.4.6.1.2.3.1.2.3.2.4.6.2.4.6 149 554 6553 13118 5 64 2218 186 97 18141 6453 754 17139 554 654535 21 185 1196 149 754 8645 171411 864 987 115185 754 876 26217 1187 139 215 975 97 191411 8645 1186 221813 186 18 17139 854 175 865 543 543 4 14119 1197 1318 186 211711 17139 9 1197 15118 186 21511 179 179 1497 14119 1318 643 5535 654535 643 211713 85645 975 14 643 7535 151311 5535 643 21511 185 1196 149 754 8645 965 452 864 1185 45315 953 191513 6554 17 1317 64 964 965 5535 8553 21511 185 1196 149 754 8645 865 543 543 4 1855 756545 95755 764 171311 149 15117 1186 145 1755 179 15118 1497 1185 715 K1P K13 K1F.1.2.5.1.3.5.1.3.5.1.3.5 18138 159 1417 159 215 2151 17139 1386 19 1197 9 97 19 1197 9 97 17139 15118 175 9 97 853 85 1187 853 1185 185 864 k
.k Cutting speed ecommendations o tuning 72 K13 K1F.15.8.15.8.15.8 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 1(15) 35(55) 35(55) 35(55) (353) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 35(55) 7515.1.3.5 752.1.3.5 K1P.1.3.5 554 554 753 3515 3515 54 4535 3515 2317 4535 3515 2317 4 1 2151 4535 3515 2317 4535 4 3515 1 2317 2151 97 554535 5543 97 554535 5543 1815 7535 7453 4C15 K1P K13.1.3.6.1.3.6.1.3.6 5352 4215 35151 315 1 151 k13
.k Cutting speed ecommendations o tuning K13.1.3.5 K1F.1.3.5 6453 4 6453 4 15 2151 1518 15 2151 1518 15 2151 1518 15 2151 1518 14118 543 535 14118 543 535 k14
.k Fist choice gade ecommendations MEDIUM GRDE GRDE GRDE.4.4.4.1.1.1 31 4C15 28 4C15 4C15.8.2 29 4C.8.2 26 4C.8.2 24 4C 2.. 2.. 2.. 18 14 4C 4C 4C.4.4.4.4.1.1.1.1 31 26 15 1 4C15 4C15 4C15 4C15.8.2 27.8.2 24.8.2 11.8.2 8 4C 4C 4C 4C 2. 2. 2. 2..... 14 9 7 4C 4C 4C 4C.4.4.1.1 2 1 4C15 4C15.8.2 15.8.2 8 4C 4C 2. 2... 9 5 4C 4C.4.4.4.1.1.1 11 9 4C15.8.2 11 4C15.8.2 8 4C15.8.2 6 4C 4C 4C 2. 2. 2.... 7 6 4 4C 4C 4C MEDIUM GRDE GRDE GRDE.4.4.4.1.1.1 17 752 9 752 1 752.8.8.8.2.2.2 14 6 7 2C 2C 2C 2..3 2..3 2..3 1 4 4 2C 2C 2C.4.4.4.1.1.1 18 8 1 752 752 752.8.8.8.2.2.2 7 1 2C 2C 2C 2..3 2..3 2..3 5 8 2C 2C 2C.4.4.1.1 15 752 752.8.8.2.2 11 9 2C35 2C35 2..3 2..3 9 7 2C35 2C35.4.4.4.1.1.1 15 8 9 752 752 752.8.8.8.2.2.2 13 6 7 2C 2C 2C 2..3 2..3 2..3 9 4 5 2C 2C 2C.4.4.4.1.1.1 15 8 9 752 752 752.8.8.8.2.2.2 11 5 7 2C 2C 2C 2..3 2..3 2..3 8 4 5 2C 2C 2C.4.4.1.1 1 752.8 752.8.2.2 9 7 2C35 2C35 2..3 2..3 6 5 2C35 2C35 MEDIUM GRDE GRDE GRDE.4.4.1.1 21 3C15 3C15.8.8.2.2 18 14 3C15 2..3 3C15 2..3 1 4C 4C.4.4.1.1 24 19 3C15 3C15.8.8.2.2 2 3C15 3C15 2. 2..3.3 17 13 4C 4C.4.4.4.1.1.1 17 15 3C15 3C15 3C15.8.8.8.2.2.2 14 13 1 3C15 3C15 3C15 2. 2. 2..3.3.3 13 1 7 4C 4C 4C k15
.k Fist choice gade ecommendations k GRDE GRDE GRDE GRDE GRDE GRDE GRDE GRDE GRDE.1 4C15 35.2 752 752 752 752 752 752 752 752 752 752 752.8.8.8.8.8.8.8.8.8.8.8.2.2.2.2.2.2.2.2.2.2.2 2..3 2..3 2..3 2..3 2..3 2..3 2..3 2..3 2..3 2..3 2..3 752 752 752 752 752 752 752 752 752 752 752 35 3 7 15 15 15 15 15.5.5.5.5.5.5.5.5.5.5.5.15.15.15.15.15.15.15.15.15.15.15 45 4 9 2 35 35 2 4 752 752 752 752 752 752 752 752 752 752 752 3 5 1 1 2 2 1 1 1 2.1.1.1.1.1.1.1.1.1.5.5.5.5.5.5.5.5.5 K13 K13 K13 K13 K13 K13 K13 K13 K13.3.3.3.3.3.3.3.3.3 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 K13 K13 K13 K13 K13 K13 K13 K13 K13 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5.3.3.3.3.3.3.3.3.3 K13 K13 K13 K13 K13 K13 K13 K13 K13 1 35 1 1 1 35 35 35 35 1 35 1 1 1 35 35 35 35 1 35 1 1 1 35 35 35 35 MEDIUM MEDIUM MEDIUM
CORUNHOLDINGd.o.o. MilošaObenovića,Suite2 Užice,Sebia31 phone: +38131/563344 ax: +38131/563461 email: counad@yahoo.com SLESDEPRTMENT phone: +38131/563391 ax: +38131/563391 email: sales@coun.s MRKETING phone: +38131/563391 ax: +38131/563391 email: maketing@coun.s DEVELOPMENT phone: +38131/5634 email: development@coun.s BOUTCOMPNY CORUNHOLDINGd.o.o.Užice,Sebiaisactoyo poductionocementedcabideindexableinsets, toolholdes,milingcutesandothespecialcutingtools basedoncementedcabide. lso,wepoducetoolsooadandminingindusty (picksoasphaltemoving,cutesocanaldigging, miningdilodeepholediling),aswelastoolsocold headingandoming(cementedcabidediesooging, puling,squeamishingalwithcoespondingpins). CORUNHOLDINGd.o.ohastheiowndevelopmentand constuctionbueau,sowehaveaoppotunitytogiveou customescompletetechnologicalanswesoal poblemsincutingindusty. OneothemaintagetoCORUNHOLDINGd.o.o. companyistobeavailablealthetimeooucustomes woldwideandtoespondonaloyousequestsas soonaspossibleinodetomakethebestsolutions togethe. WWW.CORUN.RS