multidec -MULTITASK WILLEMIN-MACODEL NEW PROGRAMM OF TOOL-HOLDERS FOR TURNING AND MILLING MACHINING CENTERS

Transcription

1 multidec -MUTITASK NEW POGAMM OF TOO-HODES FO TUNING AND MIING MACHINING CENTES WIEMIN-MACODE THE TOO FO EFFICIENT TUNING OPEATIONS ON MUTITASK MACHINES FOM WIEMIN-MACODE (TYPES 408 MT, 508 MT AND 508 MT2)

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3 egend 4 Technical infomation 7 OD tuning ID tuning Theading Dilling multidec -MUTITASK 27 multidec -CUT 45 multidec -ISO/TOP 137 multidec -BOE MICO 217 ACCESSOIES 245

4 4 egend Diffeent infomation about multidec application efe to cetain machining methods. In addition, simple symbols infom of the poduct assotment and whee additional poducts and technical infomation can be found. Dimensions All dimensions ae in millimete (mm); native dimensions in inch ae calculated into millimete. Page infomation 12 See page 12 and the following (example) ecommended usage Pefeed application Possible application Application not ecommended Machining method oughing Finishing Mico finishing Availability Standad New (in this catalog) Categoization of mateials The infomation on using multidec tools efes to cetain mateials. The mateials to be machined ae categoized in the same colo thoughout the entie catalog: Steel (non-alloyed, low alloyed and high alloyed) Stainless steel Titanium and Ti-alloys Non-feous metals (Gold, Aluminium and Bass) Ode designation To the designation of the selected type of poduct, the desied cutting mateial code must be added. Supplementing infomation to the gades can be found accoding to the page efeences ( ). Ode designation Cabide 15 SX Example: Packaging infomation The poduct labels illustate the content of the packaging and also show the mateials on which the cutting inset can be used. Fo this pupose, UTIIS uses the ISO standad coding. The UTIIS aticle numbe is geneally also pinted as a bacode on the UTIIS (multidec ) poduct packaging. Aticle no P SC UHM30 HX Bacode (DataMatix) Aticle no VPGT F TOP UHM30 HX Poduction numbe Had mateials Titanium Non-feous metals Cast ion Stainless steel Steel ecommended usage 4

5 egend 5 Execution of holde/inset The side on which the inset is located detemines whethe it is a left- o ight-hand holde. Fo this pupose, the holde is viewed with the inset pointing towads the obseve. N Pictues The ight-hand vesion of the tools is usually shown. (Exceptions ae possible). The tool colous illustated hee ae not binding. eft hand holde Neutal holde ight hand holde Poduct lines and accuacy classes of UTIIS To meet today s equiements of moden poduction it is not necessay to use the most accuate but to use the tools adapted to the equiements. This means, the moe accuate and sophisticated the pocess, the highe must be the accuacy of the poduced tools. Theefoe, the poduct ange has been divided into thee diffeent accuacy classes. You advantage: you buy the quality, which is effectively equied. Poduct line Desciption PEMIUM-INE Accuacy class of UTIIS The PEMIUM-INE includes UTIIS tools with the highest accuacy equiements, especially fo the poduction of mico pats. Tightest dimensional toleances, pecisely executed, highest suface quality and high epeatability ae the featues of this line. STANDAD-INE Accuacy class of UTIIS The STANDAD-INE meets the highest demands on the quality, which is demanded fo Swiss type tools in poduction of small pats. Tight dimensional toleances and high suface quality ae implemented. These ae quality standad tools, which ae vey well positioning this line in a wide ange of applications. VAUE-INE Accuacy class of UTIIS The VAUE-INE is based on the known positions of ou STANDAD-INE. The most impotant functional elements such as insets and holdes ae manufactued with the nomal dimensional toleances seen in the industy. Designed fo the poduction of low-cost components, this line offes optimal quality standads.

6 Notes 6 Attention Please note the legend 4

7 Technical infomation Fomulas 8 Compaison of default hadness values 9 7 Categoization of mateials 10 Popeties and application ange of cabide, cemet and HSS (High Speed Steel) 15 Popeties and application ange of coatings 16 Popeties and application ange fo diamond 18 Suface quality 20 Impovement of feed ate by dag-cut with TOP System 21 Causes and emedies of wea 22 Poblems and thei emedies in diffeent cases 23 Woking situations 24

8 Fomulas Cutting speed (v c ) evolutions pe minute (n) Feedate (v f ) 8 v c = d 1 π n [m/min] 1000 n = v c 1000 [min -1 ] d 1 π v f = f n [mm/min] n Ø d 1 v f v c f

9 Compaison of default hadness values Tensile stength (N/mm 2 ) Vickes HV Binell HB ockwell HC Shoe C Tensile stength (N/mm 2 ) Vickes HV Binell HB ockwell HC Shoe C

10 Categoization of mateials Steel (non-alloyed, low alloyed and high alloyed) Mateial numbe Specifications Hadness Categoy 10 DIN ISO AFNO AISI/SAE/ASTM JIS (HB) C 15 C18, AF3 7 C 12, XC , 1016, S 15 C I C 22 AF 42 C 20, 1 C 22, XC , 1023 S 20 C, S 33 C I C 35 C 35, 1 C 35, AF 55 C35, XC S 35 C, S 35 CM I C 45 C 45, 1 C 45, AF 65 C , 1043 S 45 C, S 45 CM I C 55 C 54, 1 C 55, AF 70 C S 55 C, 1 C I C 60 C 60, 1 C 60, AF 70 C S 58 C 255 I SMn 30, 9 SMn SMn 28 S SUM I SMn 30, 9 SMnPb SMnPb 28 S 250 Pb SUM 22, SUM 23, SUM 24 I SPb PbF I S MF I SMn 37, 9 SMn 36 S SUM 25 I SMnPb 37, 9 SMnPb SMnPb 35 S 300 Pb I Si II SiC II C 15 E, Ck 15 XC 12, XC 15, XC S 15, S 15 CK I Mn 4 35 M 5, 40 M I Mn 5 35 M 5, 40 M , 1541 SMn 438, SCMn I Mn 6 20 M 5, 28 Mn SCMn I Cf 35 XC 38 H 1 TS 1035 S 35 C, S 35 CM I C 45 E, Ck 45 C 45, 2 C 45, XC 42 H1, XC , 1045 S 45 C, S 45 CM I C 55 E, Ck 55 2 C 55, XC 55 H1, XC S 55 C, S 55 CM I Cf 53 XC 48 H 1 TS 1050, 1055 S 50 C, S 50 CM I Ck 60 C 60, 2 C 60, XC S 58 C, S 60 CM, S 65 CM I C 100 S, Ck 101 C 100, XC SUP 4, SK 4 CSP I C 105 U, C 105 W 1 Y1 105 W 110 SK I C 125 W Y2 120 W 112 I C 6, 100 C 6 Y 100 C 6 3 SUJ 2 II X 210 C 12 Z 200 C 12 D 3 SKD III CV III X 40 CMoV 5 1 Z 40 CDV 5 H 13 SKD III X 100 CMoV 5 1 Z 100 CDV 5 A 2 SKD III WC WC 5, 105 Wc 13 SKS 2, SKS 3, SKS31 II X 210 CW 12 Z 210 CW III WvV 4 F 1 III WCV 7 45 WCV 8, 45 WCV 20 S 1 II X 30 WCV 9 3 Z 30 WCV 9 H 21 SKD 5 III X 165 CMoV 12 H 12 III NiCMoV 6 55 NiCMoV 7, 55 NCDV 7 6 SKT 4 II HS Z 85 WDKCV SKH II HS Z 80 WKCV T 4 SKH II HS Z 85 WDCV M 2 SKH II HS Z 100 DCWV M 7 II HS Z 80 WCV T 1 SKH II C SUJ 2, SUJ III G-X 45 CSi 9 3 Z 45 CS 9 HNV III MnSi 4 I, II Mo 3, 15 Mo 3 15 D 3 A 204 G. A STBA 12, STFA 12, STPA 12 II Mo , 4520 SB 450 M, SB 480 M II Ni 6 16 N 6 A 203 II X 12 Ni 5, 12 Ni 19 Z 18 N 5, 5 Ni, Z 10 N , 2517 S 5 N 590 III NiC I, II NiC NC 11, 16 NC SNC 415 II NiC 13, 14 NiC NC 15, 14 NC 12, 13 NiC ; 3312, 3316 SNC II CNiMo 4 35 NCD 5, 40 NCD II NiCMo 2 2, 21 NiCMo 2 20 NCD 2, 22 NCD , 8617, 8620 SNCM II NiCMo NCD , 8740 SNCM 240 II CNiMo 6 35 NCD , 4340 SNCM II CNiMo7 6, 17 CNiMo 6 18 NCD II NiCMo NCD II C 3 12 C 3, 15 C 2, 18 C SC II C 4 32 C 4, 34 C SC II C 4 41 C 4, 42 C SC II C 4 42 C 4 TS 5140 SC II

11 Categoization of mateials Steel (non-alloyed, low alloyed and high alloyed) Mateial numbe Specifications Hadness Categoy DIN ISO AFNO AISI/SAE/ASTM JIS (HB) SiC 5 67 SiC II MnC 5 16 MC 5, 16 MnC II MnCS 5 16 MnCS II C 3 55 C SUP II CMo 4 25 CD SCM 420, SCM II CMo 4 34 CD , 4135, 4137 SCM 432, SCM 435 H, 255 SCCM 3 II CMo 4 42 CD 4 TS 4142 SNB 22, SCM 440 II CMo 4 42 CD , 4142 SCM 440, SNB II CMo 5 12 CD 4 SCM 415 II CMo 4-5, 13 CMo CD 4.05 A 182 F11, F12 SFVA F 12, STBA 20, STBA 22 II CMo CD 12 II CMo CD 9 10, 10 CD 9.10 A 182 F22 SFVA F 22 A/B, SCMV 4, SCPH 32-CF II MoV Mo 6 K11591 II CV 4 51 CV 4, 50 CV 4, 51 CV SUP II CV II CAlMo CAD 6.12 E 7140 SACM 1, SACM II CMoV 13 9, 39 CMoV 13 9 II

12 Categoization of mateials Stainless steel Mateial numbe Specifications Hadness Categoy 12 DIN ISO AFNO AISI/SAE/ASTM JIS (HB) X 6 C 13 Z 8 C SUS V X 7 C 14 Z 8 C 13 FF 410 S SUS 410 S V X 12 CS 13 X 12 CS SUS V X 12 C 13 Z 10 C , CA 15 SUS V X 6 C 17 Z 8 C SUS VI GX 20 C 14 Z 20 C 13 M SCS V, VI X 46 C 13 Z 44 C SUS VI X 17 CNi 16 2 Z 15 CN SUS VI X 12 CMoS 17 Z 10 CF F SUS 430 F 220 V X 6 CMoS 17 Z 8 CF F 200 V X 90 CMoV 18 X 90 CMoV B SUS 44 B 255 V X 6 CMo 17 1 Z 8 CD SUS V X 105 CMo 17 Z 100 CD C SUS 440 C 255 V X 5 CNi Z 6 CN , 304 H SUS V X 8 CNiS 18 9 X 10 CNiS 18 9 Z 8 CNF SUS V X 2 CNi X 2 CNi Z 3 CN SUS 304, SCS V X 6 CNi 18 9 Z 6 CN M CF 8 SCS V X 10 CNi 18 8, Z 11 CN 18 08, X 10 CNi 19 8 X 12 CNi 17 7 Z 12 CN , 302 SUS V X 2 CNiN Z 3 CN Az 304 N SUS 304 N 230 V X 3 CNi 13 4 Z 4 CND 13.4, Z 6 CN 13 4 CA 6 NM SCS VI GX 4 CNi 13 4 Z 8 CD 17 1 CA 6 NM SCS VI X 5 CNiMo Z 6 CND SUS V X 2 CNiMo S+Cu Z3CND , Z3CND SUS 316 F 215 V X 6 CNiMo CF 8M SCS V SUS 316 F V X 2 CNiMoN Z 2 CND Az 316 N SUS 316 N 250 VI X 2 CNiMo Z 3 CND SUS 316, SCS V X 5 CNiMo Z 6 CND SUS V X 2 CNiMo Z 2 CND , Z 2 CND SUS V X 2 CNiMo VM, F 138 SUS 316 V X 13 CMnMoN V X 3 CNiMo Z 5 CND Az 329 SUS 329 J 1, SCS 11, SCH VI X 1 NiCMoCu Z 2 NCDU VI X 6 CNiTi Z 6 CNT SUS VI X 5 CNiCuNb 16 4 X 5 CNiCuNb , 17-4 PH SCS 24, SUS VI X 6 CNiNb Z 6 CNNb , 348 SUS V, VI X 6 CNiMoTi Z 6 CNDT Ti SUS 316 Ti 215 V GX 5 CNiMoNb Z 4 CNDNb M SCS V X 10 CNiMoNb V X 45 CSi 9 3 Z 45 CS 9 HNV 3 SUH X 10 CAl 13 Z 13 C SUS V X 10 CAl 18 Z 12 CAS SUH 21, SUS V X 80 CNiSi 20 HNV6 SUH X 10 CAl 24 Z 12 CAS SUH X 15 CNiSi Z 9 CN 24 13, Z17 CNS SUH V X 8 CNi 25 21, X 12 CNi Z 8 CN 25 20, Z 12 CN S SUH 310, SUS 310 S VI X 12 NiCSi 35 16, X 12 NiCSi Z 20 NCS SUH 330 VI GX 40 NiCSi 38 19, GX 40 NiCSi SCH 15, SCH 16 VI X 53 CMnNiN 21 9 Z 52 CMN Az EV 8 SUH 35, SUH 36 V X 12 CNiTi 18 9 Z 6 CNT SUS V

13 Categoization of mateials Titanium and Ti-alloys Mateial numbe Specifications Hadness Categoy DIN ISO AFNO AISI/SAE/ASTM JIS (HB) Ti (Gade 1) T35 B 348, F67 KS-40 ~120 IV Ti 2 (Gade 2) T40 B 348/265, F 67 KS-50 ~150 IV Ti 3 (Gade 3) T50 F67 KS-70 ~170 IV Ti 4 (Gade 4) T60 B 348/265, F 67 KS-85 ~200 IV Ti Al 2.5 5n (Gade 6) B 348/TA 5E KS-115 AS IV TiCu 2 B 348, F 67 <260 IV TiAI8Mo1V1 IV Ti Al 6 V 4 (Gade 5) T-A 6 V B 348 KS-130 AV ~310 IV Ti 2 Pd (Gade 7) B 348/F 67 ~150 IV Ti 3 Al 2.5V (Gade 9) B 348 KS-50 Pd IV Ti 7 (Gade 7) ~150 IV Ti 1 Pd, TiAl 6 Nb 7 (Ti 6 Al 7Nb) F1295 ~120 IV

14 Categoization of mateials Non-feous metals (aluminum) Mateial numbe Specifications Hadness Categoy 14 DIN ISO AFNO AISI/SAE/ASTM JIS (HB) G-AlCu 4 TiMg VII A99 VII Al VII AlCuMg1 VII AlCuSiPb VII G-AlCu5Ni1.5 VII G-AlSi9Cu3 VII AlMgSi1 VII G-AlSi 7 Mg 4218 B VII G-AlSi 9 Mg VII G-AlSi 10 Mg VII GD-AlSi 10 Mg VII GK-AlSi 10 Mg (Cu) A VII G-AlSi 12 A VII GD-AlSi 12 A VII G-AlSi 12 (Cu) A VII AlMg1 VII G-AlMg 5 VII AlZnMgCu VII G-MgZn 4 SE 1 Z 1 ZE 41 VII MgSE3Zn 2 Z 1 EZ 33 VII G-MgAg 3 SE 2 Z 1 QE 22 VII G-MgAl 8 Zn 1 AZ 81 VII G-MgAl 9 Zn 1 AZ 91 VII Non-feous metals (bass) Mateial numbe Specifications Hadness Categoy DIN ISO AFNO AISI/SAE/ASTM JIS (HB) CuZn VIII CuZn VIII CuZn VIII CuZn VIII CuZn VIII CuZn VIII CuZn VIII CuZn 38 Pb VIII CuZn 36 Pb VIII CuZn 39 Pb VIII CuZn 39 Pb 3 C C VIII CuZn 40 Pb VIII CuZn 40 Pb 3 VIII CuZn 44 Pb 2 VIII CuZn 31 Si <180 VIII CuZn 35 Ni VIII CuZn 40 Al 2 VIII CuZn 40 Mn 2 Fe 1 VIII CuNi 7 Zn 39 Mn 5 Pb VIII

15 Popeties and application ange of cabide, cemet and HSS Gade Nom Application ange Mateials (categoy) and hadness value (HB) DIN/ISO Hadness Toughness Steel non-alloyed (I) Steel low alloyed (II) Steel high alloyed (III) Titanium (IV) Stainless steel (V) Stainless steel (VI) Aluminum (VII) Bass (VIII) Synthetics einfoced/composits (IX) Cabide UHM 10 K 10/M 10 UHM 10 HX K 10/M 10 UHM 10 MZ P 15/M 10 UHM 20 K 20/M 20 P 20 P 40/M 20 M 40 UHM 20 HX K 20/M 20 UHM 20 MZ P 25/M 20 K 30/M 20 K 30/M 20 MZ P 35/M 35 SX K 30/M 20 Cemet UCM 10 P 15/K 10/M 10 UCM 10 HX P 15/K 10/M 10 UCM 10 MZ P 10/K 05/M 10 HSS HSS P 40 P 50/M 40 M 50 HSS HX P 40 P 50/M 40 M 50 HSS SX P 40 P 50/M 40 M 50 Application ange fo diamond 18 egend 4

16 Popeties and application ange of coatings With the efinement of cutting tools with an additional coating the wea will be decisively educed. ubbing, waming up, diffusion and oxidation deceases significantly. 16 Cutting pocess without coated tool Cutting pocess with coated tool ounded edges among coated insets Evey coating of a cabide inset esults in aounded cutting edge. The smalle the diamete of the mateial to be cut, the moe significant ae the consequences in the cutting pefomance. Theefoe the ounding off of the cutting edge depends on the thickness of the coated laye. As thicke the coating, as geate is the adius ceated along the cutting edge. <0.002 >0.002

17 Popeties and application ange of coatings Cabide uncoated Standad coatings Special coatings (on demand) UTIIS-Code SX MZ HX HPX Coating TiN TiN/TiAIN TiAIN / AlTiN TiAIN / AlTiN HX-A / HX-A+ AlCN TX HX BX DX-T DX-HC AlCN TiAIN WC/C DX / DX+ TiCN DC Ta-C Diamond 17 Coating pocess PVD CVD PVD PVD PVD PVD PVD PVD PVD PVD CVD Mateials (Categoy) Steel non-alloyed (I) Steel low alloyed (II) Steel high alloyed (III) Titanium (IV) Stainless steel (V) Stainless steel (VI) Aluminum (VII) Bass (VIII) Synthetics einfoced/composits (IX) Had mateials > 60 HC egend 4

18 Popeties and application ange fo diamond 18 The exceptional hadness of diamonds in the vaious tool vesions enables much highe cutting paametes to be achieved compaed when conventional cutting mateials ae used. In addition to taditional ginding and eosion machining, the use of high tech lases not only poduces top quality cutting edges, but also enables 3D chip emoval geometies to be obtained. UPCD15 / UPCD20 UPCD (polycystalline diamond) is a sinteed diamond powde in a metallic bonding matix. Its gain stuctue anging fom ulta-fine (UPCD20) to coase (UPCD15) gives the UPCD vaying degees of toughness, so geatly extending the ange of possible applications. With its diamond content of aound 90 % only, UPCD has a much lowe hadness and hence wea-esistance than UCVD. Suitable fo the following mateials: Aluminum with 8 20 % SiC Bass, coppe and bonze Platinum and gold UPCD15 UPCD20 UCVD08 This diamond is poduced by the CVD technique with a thickness of 0.8 mm. No binde is used. Minute diamond cystals ae sepaated fom the gas phase into a thick polyme diamond substate which consists of up to 99.9 % diamond mateial. Because of its high wea esistance, the life time of this innovative cutting mateial is between 2 and 10 times longe than that of UPCD. The extemely shap cutting edge enables educed cutting pessue to be applied, theefoe achieving excellent suface quality. Suitable fo the following mateials: CFK up to 80 % cabon fibe GFK up to 80 % glass fibe Plastics Aluminum with 8 20 % SiC Bass, coppe and bonze Platinum and gold UCVD08

19 Popeties and application ange fo diamond Gade Nom Application ange Mateials (categoy) and hadness value (HB) DIN/ISO Hadness Toughness Steel non-alloyed (I) Steel low alloyed (II) Steel high alloyed (III) Titanium (IV) Stainless steel (V) Stainless steel (VI) Aluminum (VII) Bass (VIII) Synthetics einfoced/composits (IX) Diamond UCVD 08 UPCD 15 UPCD 20 egend 4

20 Suface quality Fo the definition of suface oughness measued values ae defined by DIN-ISO. In paticula it means: 20 Single suface oughness depth Z 1 Z 5 This is the vetical distance between the highest and the lowest point of the ough ness pofile within a single measued length l e. Aveage oughness depth z (DIN 4768) This is defined as the aveage value esulting fom the single oughness depths of five successive single measued lengths I e. Aveage oughness value a (DIN 4768) This is defined as the aithmetical mean of the absolute sums of the oughness pofile within the entie measued length I m. Max. suface oughness depth t (DIN 4768/1) This is the distance between the elevation and depession of the line within the measued length (efeence distance) of pofile filteed accoding to DIN 4768 sheet 1. Aveage oughness value a Single suface oughness depht Z Maximum suface oughness t Suface oughness by machining method Suface oughness Machining method Suface symbol accoding to ISO oughness index (fome) N1 N2 N3 N4 N5 N6 N7 N8 N9 N10 N11 N12 Aveage oughness value a (µm) Suface oughness depth z (µm) Tuning Ginding Theoetical suface oughness = Cone adius (mm) t = Theoetical suface oughness (µm) f = Feed (mm) t (μm) Standad design f f (mm) = 0.05 mm = 0.10 mm = 0.20 mm = 0.40 mm = 0.80 mm

21 Impovement of feed ate by dag-cut with TOP System By using the TOP system with dag-cut and a 93º holde the feed ate can be inceased up to 2 times. This way the machining time can be deceased significantly by keeping the same quality. On the othe hand within the same machining time the suface oughness can be impoved clealy. The following example illustates the pinciple exactly a p N6 a p a 0.8 μm f 2 f z ( t) 6.3 μm N6 a 0.8 μm z ( t) 6.3 μm Holde 93 Cone adius 0.8 mm Holde 93 Cone adius 0.8 mm multidec -TOP inset

22 Causes and emedies of wea 22 A Flank wea easons: Cutting speed too high Cabide gade with too little wea esistance Feed ate not adapted emedies: educe cutting speed Select bette wea esistant cabide gade Adapt feed ate to cutting speed and cutting depth (incease feed ate) Abasion on flank, nomal wea afte a cetain machining time. B Edge chipping easons: Gade with too high wea esistance Vibations Feed ate too high o excessive cutting depth Inteupted cut Swaf damage emedies: Use toughe cabide gade Use negative cutting edge geomety with chip goove Incease stability (tool and wok piece) Though excessive mechanical stess at the cutting edge factue and chipping can take place. C Cateing easons: Too high cutting speed and/o feed ate ake angle too shallow Cabide gade with little wea esistance Insufficient coolant supply emedies: educe cutting speed and/o feed ate Incease coolant quantity and/o pessue, optimize coolant supply Use cabide gade which is moe esistant to cateing The hot chip which is being evacuated causes cateing at the ake face of the cutting edge. D Plastic defomation easons: Too high machining tempeatue, e sulting in softening of substate Damaged coatings emedies: educe cutting speed Choose cabide gade with highe wea esistance Povide cooling High machining tempeatue and simultaneous mechanical stess can lead to plastic defomation. E Built-up edges easons: Too low cutting speed Too small ake angle Wong cutting mateial ack of cooling/lubication emedies: Incease cutting speed Enlage ake angle Select moe esistant coating Use emulsion with highe concentation Built-up mateial/edges occu when the chip is not evacuated popely due to a too low cutting tempeatue. F Inset beakage easons: Excessive stess of cutting mateial ack of stability Cone angle too small Excessive notching emedies: Use toughe cabide gade Use potective edge chamfe Incease honing of cutting edge Use moe stable geomety Excessive stess of the inset causes beakage.

23 Poblems and thei emedies in diffeent cases emedy/measue Poblem Cutting speed Feed Cabide toughness Cabide hadness Cleaance angle ake angle Stability ounded edge condition Coolant Face/adial unout 23 A* Excessive flank wea B* Chipping of cutting edge C* Excessive cateing D* Plastic defomation E* Built up edge F* Inset beakage Poo suface finish Chip foming, chip pile up Vibation Hailine cacks * Futhe infomation 22 incease decease inspect, optimise The cutting tempeatue paticulaly the wea depends significantly on the cutting conditions (v c, f and a p ). Themal causes of wea like oxidation and diffusion incease dispopotionately. v c = Cutting speed f = Feed a p = Depth of cut vc f a p Wea Couse of a p ; f; v c

24 Woking situations With the illustation below it is possible to achieve up diffeent tooling situations. Choose yous and we will ecommend you the suitable tooling solution. 24 Tuning axial 1 Cutting edge down Tuning diection Situation Execution Holde Inset Cutting edge up Cutting edge up Cutting edge down Tuning axial (with holde 45 ) 33 Cutting edge down 35 Tuning diection Situation Execution Holde Inset Cutting edge up Cutting edge up Cutting edge down 40

25 Woking situations Tuning adial outside Cutting edge down Tuning diection Situation Execution Holde Inset Cutting edge up Cutting edge up Cutting edge down = ight = left Tuning adial inside Cutting edge down Tuning diection Situation Execution Cutting edge up Cutting edge up Holde = ight = left Inset Cutting edge down Execution of holde/inset The side on which the inset is located detemines whethe it is a left- o ight-hand holde. Fo this pupose, the holde is viewed with the inset pointing towads the obseve. N eft hand holde Neutal holde ight hand holde

26 Poduct desciption multidec -MUTITASK Solid and compact tools ae an enomous advantage fo tuning opeations on multitask machines. Specially-designed tools must be used with the machine spindle duing the tuning pocess that can allow wok to be done vey close to the main o opposed spindle. Any eos in the height of the cutting edge and tosional foces should also be kept to a minimum. With the HSK-E40 and PSC 40 (Capto C4) spindles, this sophisticated ange of tools offes ideal solutions fo moden tuning and milling centes. HSK-E40 PSC 40 Advantages: Monoblock tools with intechangeable insets Compact and solid design The inset is positioned on the cente line (guaanteeing a vey accuate cutting edge height and high epeatability while also educing of the load on the spindle) All tools ae equipped with integated coolant supply The high quality UTIIS insets fom the multidec -CUT, -ISO, -TOP and -BOE MICO seies can be used 26

27 Oveview tool system fo tun-mill machines multidec -MUTITASK Technical infomation 7 Holdes HSK-E40 MT WM (OD tuning) 28 Holdes HSK-E40 MT WM (ID tuning) 34 Holdes PSC 40 MT (OD tuning) 35 Holdes PSC 40 MT (ID tuning) 41 eplacement and spae pats 42 27

28 Holdes multidec -MUTITASK l HSK-E40 MT CUT 500 WM HSK d b l l 2 a h max 55 HSK-E40 MT CUT 500 WM HSK-E40 MT CUT 500 WM E l b a d d h max l 2 b a Ode designation Fom / Size Dimensions Insets l 2 h max HSK-E40 MT CUT 1600 WM Ode designation Fom / Size Dimensions Insets HSK d b l l 2 a h max 59 HSK-E40 MT CUT 1600 WM HSK-E40 MT CUT 1600 WM E New egend 4

29 Holdes multidec -MUTITASK l 1 l d h 1max h max a b HSK-E40 MT CUT 3000 WM l 2 Ode designation Fom / Size Dimensions Insets HSK d b l l 1 l 2 a h max h1 max 89 HSK-E40 MT CUT 3000 WM HSK-E40 MT CUT 3000 WM E Shot inset; ong inset l a b d l 2 h max HSK-E40 MT CUT 3600 WM Ode designation Fom / Size Dimensions Insets HSK d b l l 2 a h max 127 HSK-E40 MT CUT 3600 WM HSK-E40 MT CUT 3600 WM E New egend 4

30 Holdes multidec -MUTITASK l d l 2 b HSK-E40 MT SVJP WM (93 ) 93 Ode designation Fom / Size Dimensions Insets HSK d b l l HSK-E40 MT SVJP 10 WM HSK-E40 MT SVJP 10 WM E VP l d l 2 b HSK-E40 MT SVJP V WM (93 ) 93 Ode designation Fom / Size Dimensions Insets HSK d b l l HSK-E40 MT SVJP 10 V WM HSK-E40 MT SVJP 10 V WM E VP New egend 4

31 Holdes multidec -MUTITASK l d l 2 b HSK-E40 MT SCC WM (95 ) 95 Ode designation Fom / Size Dimensions Insets HSK d b l l HSK-E40 MT SCC 06 WM HSK-E40 MT SCC 06 WM E CC HSK-E40 MT SCC 09 WM HSK-E40 MT SCC 09 WM E CC.. 09T New egend 4

32 Holdes multidec -MUTITASK l d l 2 b HSK-E40 MT SDJC WM (93 ) 93 Ode designation Fom / Size Dimensions Insets HSK d b l l HSK-E40 MT SDJC 07 WM HSK-E40 MT SDJC 07 WM E DC HSK-E40 MT SDJC 11 WM HSK-E40 MT SDJC 11 WM E DC.. 11T New egend 4

33 Holdes multidec -MUTITASK l b d l 2 HSK-E40 MT SVJC WM (93 ) 93 Ode designation Fom / Size Dimensions Insets HSK d b l l HSK-E40 MT SVJC 11 WM HSK-E40 MT SVJC 11 WM E VC HSK-E40 MT SVJC 13 WM HSK-E40 MT SVJC 13 WM E VC New egend 4

34 Holdes multidec -MUTITASK l 0 * l 1 l 2 d2 d1 d HSK-E40 MT SDA. WM l = l 0 + l 1 l 9 = l l 3 l 9 l l 3 Ode designation Fom / Size Dimensions Insets N HSK d d 1 d 2 l 1 l 2 l HSK-E40 MT SDA-4 WM E SD.4 / SX.4.. HSK-E40 MT SDA-6 WM E SD.6 / SX.6.. HSK-E40 MT SDA-8 WM E SD.8 / SX.8.. * The length of the inset is vaiable 34 New egend 4

35 Holdes multidec -MUTITASK l PSC 40 MT CUT 500. PSC d b l l 2 a h max 55 PSC 40 MT CUT 500 PSC 40 MT CUT l d l 2 a b d h max l 2 b a Ode designation Fom / Size Dimensions Insets h max PSC 40 MT CUT Ode designation Fom / Size Dimensions Insets PSC d b l l 2 a h max 59 PSC 40 MT CUT 1600 PSC 40 MT CUT New egend 4

36 Holdes multidec -MUTITASK l 1 l h 1max h max a b d PSC 40 MT CUT l 2 Ode designation Fom / Size Dimensions Insets PSC d b l l 1 l 2 a h max h1 max 89 PSC 40 MT CUT 3000 PSC 40 MT CUT Shot inset; ong inset l a b d h max l 2 PSC 40 MT CUT Ode designation Fom / Size Dimensions Insets PSC d b l l 2 a h max 127 PSC 40 MT CUT 3600 PSC 40 MT CUT New egend 4

37 Holdes multidec -MUTITASK l d l 2 b PSC 40 MT SVJP (93 ) 93 Ode designation Fom / Size Dimensions Insets PSC d b l l PSC 40 MT SVJP 10 PSC 40 MT SVJP VP l d l 2 b PSC 40 MT SVJP V (93 ) 93 Ode designation Fom / Size Dimensions Insets PSC d b l l PSC 40 MT SVJP 10 V PSC 40 MT SVJP 10 V VP New egend 4

38 Holdes multidec -MUTITASK l d l 2 b PSC 40 MT SCC (95 ) 95 Ode designation Fom / Size Dimensions Insets PSC d b l l PSC 40 MT SCC 06 PSC 40 MT SCC CC PSC 40 MT SCC 09 PSC 40 MT SCC CC.. 09T New egend 4

39 Holdes multidec -MUTITASK l d l 2 b PSC 40 MT SDJC (93 ) 93 Ode designation Fom / Size Dimensions Insets PSC d b l l PSC 40 MT SDJC 07 PSC 40 MT SDJC DC PSC 40 MT SDJC 11 PSC 40 MT SDJC DC.. 11T New egend 4

40 Holdes multidec -MUTITASK l d l 2 b PSC 40 MT SVJC (93 ) 93 Ode designation Fom / Size Dimensions Insets PSC d b l l PSC 40 MT SVJC 11 PSC 40 MT SVJC VC PSC 40 MT SVJC 13 PSC 40 MT SVJC VC New egend 4

41 Holdes multidec -MUTITASK l 0 * l 1 l 2 d d2 d1 PSC 40 SDA. l = l 0 + l 1 l 9 = l l 3 l 9 l l 3 Ode designation Fom / Size Dimensions Insets N PSC d d 1 d 2 l 1 l 2 l PSC 40 SDA SD.4 / SX.4.. PSC 40 SDA SD.6 / SX.6.. PSC 40 SDA SD.8 / SX.8.. * The length of the inset is vaiable 41 New egend 4

42 eplacement and spae pats multidec -MUTITASK Fo holdes (CUT/SV/SC/SD) OD tuning Illustation Desciption Dimensions Ode designation Holde M2.5 6 T08 MSP T08 CUT 500 CUT 1600 SC.. 06 SD.. 07 SV.P 10 SV..11 TOX scew M2.5 7 T08 MSP T08 SV..13 M3 9 T08 MSP T08 CUT 3000 M3 11 TP09 MSP TP09 CUT 3600 M T15 MSP T15 SC.. 09 SD.. 11 Fo holdes (SDA) ID tuning Illustation Desciption Dimensions Ode designation Holde Insets M8 0.5 MSP SDA 4M SDA-4. Nut M MSP SDA 6M SDA-6. M MSP SDA 8M SDA-8. SDA 4X SDA-4. Aligning device SDA 6X SDA-6. SDA 8X SDA-8. MSP SDA 4S SD. 4 SX. 4 etaining ing MSP SDA 6S SD. 6 SX. 6 MSP SDA 8S SD. 8 SX. 8 TOX scewdive egend 4

43 Notes 43 Attention Please note the legend 4

44 Poduct desciption multidec -CUT multidec -CUT is most commonly used in OD-tuning o altenatively in ID-tuning. 5 systems ae distinguished by the cutting depth o width and application field of machining pocess. All insets ae eplaceable vey easy and known fo its geat epeat accuacy. Fo cutting of all common mateials we offe ideal adjusted micogain cabides gades (K10 K40 PVD coated and uncoated). Application multidec -CUT tool system (holde and inset) Type Dmax Maximum of ba diamete Blank 01 CUT off 02 Font tuning 03 Back tuning 04 Copy tuning 04 SP Gooving and tuning 05 Theading 06 adius-gooving 07 Gooving (adial) 10 Gooving (axial) 11 Chamfeing 12

45 Oveview multidec -CUT Technical infomation 7 Machining methods 46 Choice of inset Application 1600/3000/ Poduct lines and accuacy classes of UTIIS, designation system STANDAD-INE Aticle no A P Oveview insets Oveview insets Oveview insets Oveview insets Stahl unlegiet Acie non allié Steel unalloyed Stahl niediglegiet Acie faibl. allié Steel low alloyed Stahl hochlegiet Acie fotem. allié Steel high alloyed Titan Titane Titanium Häte (HB) Dueté (HB) Hadness value (HB) Cutting specification Kategoie Catégie Categoy Beabeitung Usinage Machining method I II III IV 132 Application ecommendation fo numbe of passes at theading 134 Choice of feed movement 135 Accessoies 245

46 Machining methods multidec -CUT A diffeent combination of holde and inset allows cutting even in difficult situations. Main-spindle left Possibilities of inset execution Main-spindle left Possibilities of inset execution V 46 1 V N V N V 2 V N V N 3 A N V N V 4 A A V N V N 5 A AV N V N V 6 AV AV V N V N 7 AV A B

47 Machining methods multidec -CUT Main-spindle ight Possibilities of inset execution Main-spindle ight Possibilities of inset execution V V 1 47 N V N V 2 V N V N 3 A N V N V 4 A A V N V N 5 A AV N V N V 6 AV AV V N V N 7 AV C D

48 Choice of insets multidec -CUT 48 Application Type and chip beake Machining Method Chaacteistics GS 02 SC 02 SPT SP 03 CP TOP CP 04 SP 04 TOP CP VP CUT off without chip beake CUT off with chip beake CUT off with chip beake CUT off with chip beake fo tende mateial Font tuning without chip beake Font tuning with chip beake Font tuning with chip beake and cutting edge TOP Back tuning without chip beake Back tuning with chip beake Copy tuning with chip beake Back tuning with chip beake and cutting edge TOP Gooving and tuning without chip beake Gooving and tuning with chip beake Theading patial pofile Theading full pofile adius-gooving Gooving adial Gooving axial Chamfeing

49 Notes 49 Attention Please note the legend 4

50 Application OD tuning multidec -CUT 1600 CUT off Font tuning Copy tuning (font) Insets 61 Insets 70 Insets Copy tuning (back) Back tuning Gooving and Tuning Insets 74 Insets 75 Insets Theading adius-gooving Gooving (adial) Insets 79 Insets 83 Insets Gooving (axial) Chamfeing Insets 85 Insets Special insets (on demand) Insets ,1696, 1698, 1699

51 Application OD tuning multidec -CUT 3000 CUT off Font tuning Copy tuning (font) Insets 92 Insets 109 Insets Copy tuning (back) Back tuning Gooving and Tuning Insets 112 Insets 113 Insets Theading adius-gooving Chamfeing Insets 118 Insets 122 Insets Special insets (on demand) Insets

52 Application OD tuning multidec -CUT 3600 Gooving and Tuning Insets Special insets (on demand) Insets

53 Poduct lines and accuacy classes of UTIIS multidec -CUT Poduct line 5 epeatability PEMIUM-INE Accuacy class of UTIIS < 10 µm STANDAD-INE Accuacy class of UTIIS < 20 µm 53 VAUE-INE Accuacy class of UTIIS < 50 µm Designation system multidec -CUT The designation of evey inset and holde includes all impotant infomation accoding to the follwing system: Insets * SC UHM30 HX Aticle no P SC UHM30 HX Coating Cutting mateial Chip beake o special execution Execution Maximum depth (mm) Width (mm) Cutting design Poduct line * Packaging Infomation 632 egend 4

54 Poduct desciption multidec -CUT 500 The tun and cut-off system 500 is suitable fo Swiss type cam lathes up to ba diamete 15mm. The neutal cutting insets, only available as blanks, consist of one cutting edge and will be mounted on tool holdes with a epeatability of < 0.01 mm. 54 Advantages: eplace bazed tools on cam machines Neutal insets with mio polished cutting face Coated and uncoated blanks available The machine opeato can gind his own cutting geometies

55 Oveview insets multidec -CUT 500 Technical infomation 7 Insets

56 Insets multidec -CUT 500 Blank 56 c a x 501 z Ode designation Cabide 15 Dimensions Holde N 27 a c x z UHM 10 UHM 10 HX PEMIUM-INE Accuacy class of UTIIS N P * CUT 500. STANDAD-INE Accuacy class of UTIIS 5 c a x N CUT 500. * Mio polished z Ode designation Cabide 15 Dimensions Holde 27 a c x z UHM 10 UHM 10 HX PEMIUM-INE Accuacy class of UTIIS P * P * CUT 500. * Mio polished New egend 4

57 Notes 57 Attention Please note the legend 4 egend 4

58 Poduct desciption multidec -CUT 1600 The tun and cut-off system 1600 is suitable fo Swiss type lathes up to ba diamete 10 mm. The cutting insets consist of two cutting edges. 58 Advantages: age selection of cutting geometies with diffeent chip beakes especially made fo smallest pats Full pofile theading insets stating fom M 0.2 (0.06 mm pitch) Gooving insets width stating fom 0.05 mm

59 Oveview insets multidec -CUT 1600 Technical infomation 7 Insets , 1602 V SC, 1602 V SC SPT, 1602 V SPT TOP, 1602 V TOP SC TOP, 1602 V SC TOP N SC N SPT SP CP TOP V SP SP TOP SP TOP CP VP UNC VP, 1606 UNF VP G VP , 1696, 1698, 1699 (special insets)

60 Insets multidec -CUT 1600 Blank c a / -6 / B-3 c a x x 1601 z z Ode designation Cabide 15 HSS Dimensions Holde N 27 a c x z UHM 20 HSS HSS HX PEMIUM-INE N P * CUT N P * CUT N P * CUT N P * CUT STANDAD-INE N CUT N CUT N CUT N CUT VAUE-INE 1601 B-3-5 N CUT * Mio polished Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

61 Insets multidec -CUT 1600 CUT off 61 c α 1602 a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 PEMIUM-INE G G CUT STANDAD-INE CUT CUT CUT CUT VAUE-INE 1602 B B CUT B B CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

62 Insets multidec -CUT 1600 CUT off 62 V V c α 1602 V V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 PEMIUM-INE V G V G CUT STANDAD-INE V V CUT V V CUT V V CUT V V CUT VAUE-INE 1602 B V 1602 B V CUT B V 1602 B V CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

63 Insets multidec -CUT 1600 CUT off 63 c α 1602 SC a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 V V c STANDAD-INE Accuacy class of UTIIS SC SC CUT V SC V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 STANDAD-INE Accuacy class of UTIIS V SC V SC CUT egend 4

64 Insets multidec -CUT 1600 CUT off 64 β c α s 1602 SPT a Ode designation Cabide 15 Dimensions Holde 27 a c α β s UHM 20 PEMIUM-INE SPT G SPT G CUT STANDAD-INE SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT VAUE-INE 1602 B SPT B SPT CUT B SPT B SPT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

65 Insets multidec -CUT 1600 CUT off V V 65 β c 1602 V SPT s V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α β s UHM 20 PEMIUM-INE V SPT G V SPT G CUT STANDAD-INE V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT VAUE-INE 1602 B V SPT B V SPT CUT B V SPT B V SPT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

66 Insets multidec -CUT 1600 Tuning and cut off Detail TOP* 66 apmax c α 1602 TOP* b β a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS TOP TOP CUT * Desciption TOP 21 Detail TOP* V V apmax c α 1602 V TOP* β b V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS V TOP V TOP CUT * Desciption TOP 21 egend 4

67 Insets multidec -CUT 1600 Tuning and cut off Detail TOP* 67 apmax c α 1602 SC TOP* b β a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS SC TOP SC TOP CUT * Desciption TOP 21 Detail TOP* V V apmax c 1602 V SC TOP* β b V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS V SC TOP V SC TOP CUT * Desciption TOP 21 egend 4

68 Insets multidec -CUT 1600 CUT off (neutal) 68 c 1602 N SC a Ode designation Cabide 15 Dimensions Holde 27 a c UHM 20 STANDAD-INE Accuacy class of UTIIS N SC N SC CUT egend 4

69 Insets multidec -CUT 1600 CUT off (neutal) 69 β c s 1602 N SPT a Ode designation Cabide 15 Dimensions Holde 27 a c s β UHM 20 PEMIUM-INE N SPT N SPT CUT STANDAD-INE N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT VAUE-INE 1602 B N SPT B N SPT CUT B N SPT B N SPT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

70 Insets multidec -CUT 1600 Font tuning 70 β c 1603 α a b Ode designation Cabide 15 Dimensions Holde 27 a b c α β UHM 20 STANDAD-INE CUT CUT CUT CUT CUT VAUE-INE 1603 B B CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

71 Insets multidec -CUT 1600 Font tuning A A s β 71 γ A A c 1603 SP U a Ode designation Cabide 15 Dimensions Holde 27 a c β s γ UHM 20 STANDAD-INE SP U SP U CUT SP U SP U CUT SP U SP U CUT SP U SP U CUT SP U SP U CUT SP U SP U CUT Accuacy class of UTIIS 5 New egend 4

72 Insets multidec -CUT 1600 Font tuning 72 β A A A A δ γ 1603 CP TOP* α a b c Ode designation Cabide 15 Dimensions Holde 27 a b c α β γ δ UHM 20 STANDAD-INE CP TOP ZZ CP TOP ZZ CUT CP TOP CP TOP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

73 Insets multidec -CUT 1600 Copy tuning (font) V V α 73 β t t c 1604 V SP V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α β t UHM 20 STANDAD-INE V SP V SP CUT V SP V SP CUT Accuacy class of UTIIS 5 egend 4

74 Insets multidec -CUT 1600 Copy tuning (back) 74 α c β t t 1604 SP a Ode designation Cabide 15 Dimensions Holde 27 a c α β t UHM 20 STANDAD-INE SP SP CUT SP SP CUT SP SP CUT Accuacy class of UTIIS 5 egend 4

75 Insets multidec -CUT 1600 Back tuning d β 75 3 c 1604 TOP* b a δ γ Ode designation Cabide 15 Dimensions Holde 27 a b c d β γ δ UHM 20 STANDAD-INE TOP ZZ TOP ZZ CUT TOP TOP CUT TOP TOP CUT TOP TOP CUT TOP ZZ TOP ZZ CUT VAUE-INE 1604 B TOP B TOP CUT B TOP ZZ 1604 B TOP ZZ CUT * Desciption TOP 21 Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

76 Insets multidec -CUT 1600 Back tuning 76 δ A A A A c b α 3 β 1604 SP TOP* a γ Ode designation Cabide 15 Dimensions Holde 27 a c b α β γ δ UHM 20 STANDAD-INE SP TOP 20ZZ SP TOP 20ZZ CUT SP TOP SP TOP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

77 Insets multidec -CUT 1600 Gooving and tuning 77 d* c* 1605 a Ode designation Cabide 15 Dimensions Holde 27 a c* d* UHM 20 STANDAD-INE CUT CUT CUT VAUE-INE 1605 B B CUT B B CUT * c: maximal tuning capacity d: maximal gooving capacity Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

78 Insets multidec -CUT 1600 Gooving and tuning 78 β A A A A d* c* 1605 CP a Ode designation Cabide 15 Dimensions Holde 27 a c* d* β UHM 20 STANDAD-INE CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT * c: maximal tuning capacity d: maximal gooving capacity Accuacy class of UTIIS 5 egend 4

79 Insets multidec -CUT 1600 Theading (full pofile metic) α 79 c b 1606 VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 P a 1 a 2 b c α UHM 20 ISO DIN13 NIHS NIHS PEMIUM-INE VP VP S 0.2* CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP M 1 / 1.2 M 1 / 1.2 S 1 / CUT VP VP M 1.4 S CUT VP VP M 1.6 M 1.6 / CUT VP VP M 2 M CUT VP VP M 2.5 M 2.2 / CUT STANDAD-INE VP VP M 3 M CUT VP VP M CUT VP VP M 4 M CUT VP VP M CUT VP VP M5 M CUT VP VP M6/ CUT VP VP M8/ CUT * Simila to the nome Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 egend 4

80 Insets multidec -CUT 1600 Theading (full pofile UNC/UNF) 80 α c b 1606 UNC VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 PEMIUM-INE UNC 60 VP UNC 60 VP CUT UNC 60 VP UNC 60 VP STANDAD-INE 1606 UNF VP Ode designation Cabide 15 Standad Dimensions Holde Accuacy class of UTIIS 5 Accuacy class of UTIIS UNC 60 VP UNC 60 VP CUT UNC 60 VP UNC 60 VP CUT UNC 60 VP UNC 60 VP CUT UNC 60 VP UNC 60 VP CUT UNC 60 VP UNC 60 VP CUT ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 PEMIUM-INE UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT STANDAD-INE UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT UNF 60 VP UNF 60 VP CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 egend 4

81 Insets multidec -CUT 1600 Theading (full pofile pipe thead) α 81 c b 1606-G VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 STANDAD-INE 1606-G VP 1606-G VP 1606-G VP 1606-G VP 1606-G VP 1606-G VP Accuacy class of UTIIS 5 1/ CUT / CUT / CUT / CUT / CUT / CUT / CUT / CUT Application ecommendation fo numbe of passes at theading 134 egend 4

82 Insets multidec -CUT 1600 Theading (patial pofile 55 /60 ) 82 α c 1606 P Pitch e a Ode designation Cabide 15 Dimensions Holde 27 P a c α e UHM 20 STANDAD-INE CUT CUT VAUE-INE 1606 B B CUT B B CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 New egend 4

83 Insets multidec -CUT 1600 adius-gooving 83 β d c s 1607 a Ode designation Cabide 15 Dimensions Holde 27 a c d β s UHM 20 PEMIUM-INE CUT STANDAD-INE CUT CUT CUT CUT CUT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 egend 4

84 Insets multidec -CUT 1600 Gooving (adial) 84 β d c s 1610 a Ode designation Cabide 15 Standad Dimensions Holde 27 ISO a Toleance c d β s DIN UHM 20 PEMIUM-INE ± CUT ± CUT ± CUT STANDAD-INE / CUT ± CUT / CUT ± CUT / CUT ± CUT ± CUT / CUT ± CUT / CUT / CUT ± CUT ± CUT / CUT ± CUT ± CUT / CUT ± CUT ± CUT / CUT / CUT / ± CUT / CUT / CUT / ± CUT ± CUT / CUT / ± CUT / ± CUT / ± CUT / ± CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 New egend 4

85 Insets multidec -CUT 1600 Gooving (axial) Dmin 85 β d c s 1611 a Ode designation Cabide 15 Dimensions Holde 27 a c D min d β a p max UHM 20 ±0.02 STANDAD-INE CUT CUT CUT CUT CUT CUT Accuacy class of UTIIS 5 Pay attention to the woking situations fo the coect selection of the combinations of tools and insets 24 Attention The goove must not be made undeneath the D min -position. egend 4

86 Insets multidec -CUT 1600 Chamfeing 86 c α β α d 1612 e a Ode designation Cabide 15 Dimensions Holde 27 a c d α β e UHM 20 STANDAD-INE CUT CUT Accuacy class of UTIIS 5 egend 4

87 Special insets multidec -CUT , 1696,1698, Poduct desciption Development and poduction of multidec tools fo you own specific needs. Custome s situation A special machining method makes it impossible o difficult to use tools fom the standad multidec ange. You need a special inset, a special tool o coating which is not included in ou standad poduct ange. UTIIS solution Afte detailed consultation, we will develop and make the best multidec solution fo you paticula needs. Nomally this will be done using standad blanks which enable the special tools to be poduced and deliveed quickly and at easonable cost. The familia multidec quality is of couse always guaanteed. Advantages: UTIIS know-how and quality also fo special tools Standad blanks pemit fast and easonably piced delivey Tools developed to meet you specific needs

88 Poduct desciption multidec -CUT 3000 A tun and cut-off tool system fo Swiss type lathes up to ba diamete 32 mm. The cutting insets consist of two cutting edges. The inset seat, which is potected against contamination pemits 100 % utilization of all cutting edges. 88 Advantages: age selection of inset geometies with diffeent chip beake geometies Special chip beake design fo machining of small to mid-sized wok pieces Pependiculaity guaanteed by two fixing scews, lage suppot face and a genuine stop face fo axial positioning The cutting foces ae tansfeed diectly fom the inset to the holde; the scews ae theefoe not exposed to shea stess Insets can be egound 2 nd edge still usable afte the fist has cashed This inset with the chip beake GS was developed using a evolutionay new manufactuing technology. Geomety, cabide and coating ae pefectly matched to cut off all mateials. The esult is a cut-off inset which will incease you poductivity enomously. Advantages: Optimally tuned cabide and coating fo high cutting speeds Good chip contol by special chip beake Fo high feeds ounded cutting edge E fo steel and easily machineable stainless steel Shap cutting edge F fo supe-alloys, non-feous metals and stainless steels which ae difficult to machine easonably piced

89 Oveview insets multidec -CUT 3000 Technical infomation 7 Insets , 3002 V , V GS, 3002 V GS SC, 3002 V SC SPT, 3002 V SPT TOP, 3002 V TOP SC TOP, 3002 V SC TOP N GS N SC N SPT SP TOP V SP SP TOP SP TOP CP, 3004 V CP CP VP UNC VP, 3006 UNF VP G VP (special insets)

90 Notes 90 Attention Please note the legend 4

91 Insets multidec -CUT 3000 Blank c a 91 x 3001 z Ode designation Cabide 15 HSS Dimensions Holde 27 a c x z UHM 20 HSS HSS HX PEMIUM-INE P * P * CUT P * P * CUT STANDAD-INE CUT CUT * Mio polished Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 egend 4

92 Insets multidec -CUT 3000 CUT off 92 c α 3002 a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 STANDAD-INE CUT CUT CUT CUT CUT CUT CUT CUT CUT CUT CUT CUT CUT Accuacy class of UTIIS 5 egend 4

93 Insets multidec -CUT 3000 CUT off V V 93 c α 3002 V V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 STANDAD-INE V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT V V CUT Accuacy class of UTIIS 5 egend 4

94 Insets multidec -CUT 3000 CUT off with counte-spindle 94 c 1 c α a a 1 Ode designation Cabide 15 Dimensions Holde 27 a a 1 c c 1 α UHM 20 PEMIUM-INE G G CUT STANDAD-INE CUT CUT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 egend 4

95 Insets multidec -CUT 3000 CUT off with counte-spindle V V 95 c V V: offset c α a a 1 Ode designation Cabide 15 Dimensions Holde 27 a a 1 c c 1 α UHM 20 PEMIUM-INE V G V G CUT STANDAD-INE V V CUT V V CUT V V CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 egend 4

96 Insets multidec -CUT 3000 CUT off E: Inset with ounded cutting edge 96 c α 3002 E. GS F: Inset with shap cutting edge a Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS E GS E GS CUT F. GS Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS F GS F GS CUT GS cutting specification 132 New egend 4

97 Insets multidec -CUT 3000 CUT off E: Inset with ounded cutting edge V V E.V GS F: Inset with shap cutting edge V: offset c α a Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS EV GS EV GS CUT F.V GS Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS FV GS FV GS CUT GS cutting specification 132 New egend 4

98 Insets multidec -CUT 3000 CUT off 98 c α 3002 SC a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 STANDAD-INE SC SC CUT SC SC CUT SC SC CUT SC SC CUT SC SC CUT SC SC CUT SC SC CUT Accuacy class of UTIIS 5 egend 4

99 Insets multidec -CUT 3000 CUT off V V 99 c 3002 V SC V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α UHM 20 STANDAD-INE V SC V SC CUT V SC V SC CUT V SC V SC CUT V SC V SC CUT V SC V SC CUT V SC V SC CUT V SC V SC CUT Accuacy class of UTIIS 5 egend 4

100 Insets multidec -CUT 3000 CUT off 100 β c α s 3002 SPT a Ode designation Cabide 15 Dimensions Holde 27 a c α β s UHM 20 STANDAD-INE SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT SPT SPT CUT Accuacy class of UTIIS 5 egend 4

101 Insets multidec -CUT 3000 CUT off V V 101 β c 3002 V SPT s V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α β s UHM 20 STANDAD-INE V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT V SPT V SPT CUT Accuacy class of UTIIS 5 egend 4

102 Insets multidec -CUT 3000 Tuning and cut off Detail TOP* 102 apmax c α 3002 TOP* b β a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS TOP TOP CUT * Desciption TOP 21 egend 4

103 Insets multidec -CUT 3000 Tuning and cut off Detail TOP* V V 103 apmax c α 3002 V TOP* β b V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS V TOP V TOP CUT * Desciption TOP 21 egend 4

104 Insets multidec -CUT 3000 Tuning and cut off Detail TOP* 104 apmax c α 3002 SC TOP* b β a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS SC TOP SC TOP CUT * Desciption TOP 21 egend 4

105 Insets multidec -CUT 3000 Tuning and cut off Detail TOP* V V 105 apmax c 3002 V SC TOP* β b V: offset α a Ode designation Cabide 15 Dimensions Holde 27 a c α β b a p max UHM 20 STANDAD-INE Accuacy class of UTIIS V SC TOP V SC TOP CUT * Desciption TOP 21 egend 4

106 Insets multidec -CUT 3000 Cutting off (neutal) E: Inset with ounded cutting edge N N 106 c 3002 EN GS F: Inset with shap cutting edge a Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS EN GS EN GS CUT FN GS Ode designation Cabide 15 Dimensions Holde UHM a c α VAUE-INE Accuacy class of UTIIS FN GS FN GS CUT GS cutting specification 132 New egend 4

107 Insets multidec -CUT 3000 CUT off (neutal) 107 c 3002 N SC a Ode designation Cabide 15 Dimensions Holde 27 a c UHM 20 STANDAD-INE N SC N SC CUT N SC N SC CUT N SC N SC CUT N SC N SC CUT N SC N SC CUT N SC N SC CUT N SC N SC CUT Accuacy class of UTIIS 5 egend 4

108 Insets multidec -CUT 3000 CUT off (neutal) 108 β c s 3002 N SPT a Ode designation Cabide 15 Dimensions Holde 27 a c s β UHM 20 STANDAD-INE N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT N SPT N SPT CUT Accuacy class of UTIIS 5 egend 4

109 Insets multidec -CUT 3000 Font tuning β 109 c 3003 α a b Ode designation Cabide 15 Dimensions Holde 27 a b c α β UHM 20 STANDAD-INE Accuacy class of UTIIS CUT egend 4

110 Insets multidec -CUT 3000 Font tuning A A 110 s γ A A β c 3003 SP TOP* α a b Ode designation Cabide 15 Dimensions Holde 27 a b c α β s γ UHM 20 STANDAD-INE SP U TOP ZZ SP U TOP ZZ CUT SP U TOP SP U TOP CUT SP U TOP SP U TOP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

111 Insets multidec -CUT 3000 Copy tuning (font) V V α 111 β t t c 3004 V SP V: offset a Ode designation Cabide 15 Dimensions Holde 27 a c α β t UHM 20 STANDAD-INE V SP V SP CUT V SP V SP CUT V SP V SP CUT V SP V SP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

112 Insets multidec -CUT 3000 Copy tuning (back) 112 α c β t t 3004 SP a Ode designation Cabide 15 Dimensions Holde 27 a c α β t UHM 20 STANDAD-INE SP SP CUT SP SP CUT SP SP CUT SP SP CUT SP SP CUT SP SP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

113 Insets multidec -CUT 3000 Back tuning d β c 3004 TOP* b a δ γ Ode designation Cabide 15 Dimensions Holde 27 a b c d β γ δ UHM 20 STANDAD-INE TOP ZZ TOP ZZ CUT TOP ZZ TOP ZZ CUT TOP ZZ TOP ZZ CUT TOP ZZ TOP ZZ CUT TOP ZZ TOP ZZ CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

114 Insets multidec -CUT 3000 Back tuning 114 δ A A A A c b α 5 β 3004 SP TOP* a γ Ode designation Cabide 15 Dimensions Holde 27 a c b α β γ δ UHM 20 STANDAD-INE SP TOP 20ZZ SP TOP 20ZZ CUT SP TOP SP TOP CUT SP TOP SP TOP CUT * Desciption TOP 21 Accuacy class of UTIIS 5 egend 4

115 Insets multidec -CUT 3000 Back tuning A A δ A A c α 4.2 β CP a γ Ode designation Cabide 15 Dimensions Holde 27 a c α β γ δ UHM 20 STANDAD-INE Accuacy class of UTIIS CP CP CUT V V α A A A A β 4 c 3004 V CP V: offset γ a Ode designation Cabide 15 Dimensions Holde 27 a c α β γ δ UHM 20 STANDAD-INE Accuacy class of UTIIS V CP V CP CUT egend 4

116 Insets multidec -CUT 3000 Gooving and tuning 116 d* c* 3005 a Ode designation Cabide 15 Dimensions Holde 27 a c* d* UHM 20 STANDAD-INE CUT CUT CUT CUT CUT * c: maximal tuning capacity d: maximal gooving capacity Accuacy class of UTIIS 5 egend 4

117 Insets multidec -CUT 3000 Gooving and tuning A A 117 β A A d* c* 3005 CP a Ode designation Cabide 15 Dimensions Holde 27 a c* d* β UHM 20 STANDAD-INE CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT CP CP CUT * c: maximal tuning capacity d: maximal gooving capacity Accuacy class of UTIIS 5 egend 4

118 Insets multidec -CUT 3000 Theading (full pofile metic) 118 α c b 3006 VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 P a 1 a 2 b c α UHM 20 ISO DIN13 NIHS NIHS PEMIUM-INE VP VP S CUT VP VP S CUT VP VP S CUT VP VP S CUT VP VP M 1/1.2 M 1/1.2 S 1/S CUT VP VP M 1.4 S CUT VP VP M 1.6 M 1.6/ CUT VP VP M 2 M CUT VP VP M 2.5 M 2.2/ CUT STANDAD-INE VP VP M 3 M CUT VP VP M CUT VP VP M 4 M CUT VP VP M CUT VP VP M 5 M CUT VP VP M 6/ CUT VP VP M 8/ CUT VP VP M 10/ CUT VP VP M CUT VP VP M 14/ CUT VP VP M 18/20/ CUT VP VP M 24/ CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 egend 4

119 Insets multidec -CUT 3000 Theading (full pofile UNC/UNF) α 119 c b 3006 UNC VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 STANDAD-INE UNC VP UNC VP CUT UNC VP UNC VP CUT UNC VP UNC VP CUT UNC VP UNC VP CUT UNC VP UNC VP CUT UNC VP UNC VP CUT UNC VP UNC VP CUT /4-20 UNC VP /4-20 UNC VP 1/ CUT /16-18 UNC VP /16-18 UNC VP 5/ CUT /8-16 UNC VP /8-16 UNC VP 3/ CUT /16-14 UNC VP /16-14 UNC VP 7/ CUT /2-13 UNC VP /2-13 UNC VP 1/ CUT UNF VP Ode designation Cabide 15 Standad Dimensions Holde Accuacy class of UTIIS 5 27 ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 STANDAD-INE UNF VP UNF VP CUT UNF VP UNF VP CUT UNF VP UNF VP CUT UNF VP UNF VP CUT UNF VP UNF VP CUT UNF VP UNF VP CUT /4-28 UNF VP /4-28 UNF VP 1/ CUT /16-24 UNF VP /16-24 UNF VP 5/ CUT /8-24 UNF VP /8-24 UNF VP 3/ CUT /16-20 UNF VP /16-20 UNF VP 7/ CUT /2-20 UNF VP /2-20 UNF VP 1/ CUT Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 egend 4

120 Insets multidec -CUT 3000 Theading (full pofile pipe thead) 120 α c b 3006-G VP P Pitch a 1 a 2 Ode designation Cabide 15 Standad Dimensions Holde 27 ANSI P P a 1 a 2 b c α B1.1 (T/Inch) UHM 20 STANDAD-INE 3006-G VP 3006-G VP 3006-G VP 3006-G VP 3006-G VP 3006-G VP 3006-G VP 3006-G VP Accuacy class of UTIIS 5 1/ CUT / CUT / CUT / CUT / CUT / CUT / CUT / CUT CUT / CUT / CUT / CUT / CUT CUT / CUT / CUT / CUT CUT / CUT CUT / CUT CUT / CUT CUT Application ecommendation fo numbe of passes at theading 134 egend 4

121 Insets multidec -CUT 3000 Theading (patial pofile 60 /55 ) α 121 c 3006 P Pitch e a Ode designation Cabide 15 Dimensions Holde 27 P a c α e UHM 20 STANDAD-INE CUT CUT CUT CUT Accuacy class of UTIIS 5 Application ecommendation fo numbe of passes at theading 134 egend 4

122 Insets multidec -CUT 3000 adius-gooving 122 β d c s 3007 a Ode designation Cabide 15 Dimensions Holde 27 a c d β s UHM 20 PEMIUM-INE CUT STANDAD-INE CUT CUT CUT CUT CUT CUT CUT Accuacy class of UTIIS 5 Accuacy class of UTIIS 5 egend 4

123 Insets multidec -CUT 3000 Chamfeing c α β α d e a Ode designation Cabide 15 Dimensions Holde 27 a c d α β e UHM 20 STANDAD-INE CUT CUT Accuacy class of UTIIS 5 egend 4

124 Special insets multidec -CUT Poduct desciption Development and poduction of multidec tools fo you own specific needs. Custome s situation A special machining method makes it impossible o difficult to use tools fom the standad multidec ange. You need a special inset, a special tool o coating which is not included in ou standad poduct ange. UTIIS solution Afte detailed consultation, we will develop and make the best multidec solution fo you paticula needs. Nomally this will be done using standad blanks which enable the special tools to be poduced and deliveed quickly and at easonable cost. The familia multidec quality is of couse always guaanteed. Advantages: UTIIS know-how and quality also fo special tools Standad blanks pemit fast and easonably piced delivey Tools developed to meet you specific needs

125 Notes 125 Attention Please note the legend 4

126 Poduct desciption multidec -CUT 3600 A tun and cut-off tool fo Swiss type lathes up to ba diamete 20 mm. The cutting insets consist of two cutting edges. The inset seat, which is potected against contamination pemits 100 % utilization of all cutting edges. 126 Advantages: System fo gooving lage and wide foms up to 6 mm The machine opeato can gind his own cutting geometies

127 Oveview insets multidec -CUT 3600 Technical infomation 7 Insets (special insets)

128 Insets multidec -CUT 3600 Blank 128 c a x 3601 z Ode designation Cabide 15 HSS Dimensions Holde 27 a c x z HSS HSS HX PEMIUM-INE Accuacy class of UTIIS N P * CUT STANDAD-INE Accuacy class of UTIIS N CUT * Mio polished egend 4

129 Insets multidec -CUT 3600 Gooving and tuning A A 129 β A A d* c* 3605 CP a Ode designation Cabide 15 Dimensions Holde 27 a c* d* β STANDAD-INE CP CP CUT CP CP CUT * c: maximal tuning capacity d: maximal gooving capacity Accuacy class of UTIIS 5 egend 4

130 Special insets multidec -CUT Poduct desciption Development and poduction of multidec tools fo you own specific needs. Custome s situation A special machining method makes it impossible o difficult to use tools fom the standad multidec ange. You need a special inset, a special tool o coating which is not included in ou standad poduct ange. UTIIS solution Afte detailed consultation, we will develop and make the best multidec solution fo you paticula needs. Nomally this will be done using standad blanks which enable the special tools to be poduced and deliveed quickly and at easonable cost. The familia multidec quality is of couse always guaanteed. Advantages: UTIIS know-how and quality also fo special tools Standad blanks pemit fast and easonably piced delivey Tools developed to meet you specific needs

131 Notes 131 Attention Please note the legend 4

132 Cutting specification multidec -CUT Steel unalloyed Steel low alloyed Steel high alloyed Titanium 132 Hadness value (HB) Categoy Machining method Feeds Depths of cut Cutting speeds Cutting mateial cabide I II III IV f (mm/ev) a p (mm) <5 <3 <2 <5 <3 <2 <4 <2.5 <1.5 <4 <2.5 <1.5 v c (m/min) UHM Cutting mateial HSS HSS HSS HX Cutting specification GS multidec -CUT E: Inset with ounded cutting edge Mateial numbe Standads Cutting speeds Feeds DIN AFNO AISI/SAE/ASTM JIS Vc (m/min) f (mm/ev) SMn 30, 9 SMn 28 S SUM SMn 30, 9 SMnPb 28 S 250 Pb SUM 22, SUM 23, SUM SMn 37, 9 SMn 36 S SUM SMnPb 37, 9 SMnPb 36 S 300 Pb X 12 CMoS 17 Z 10 CF F SUS 430 F X5 CNi Z 6 CN , 304 H SUS X 8 CNiS 18-9 Z 8 CNF SUS X2 CNiMo Z3 CND SUS316, SCS AlZnMgCu F: Inset with shap cutting edge Mateial numbe Standads Cutting speeds Feeds DIN AFNO AISI/SAE/ASTM JIS Vc (m/min) f (mm/ev) X 12 CMoS 17 Z 10 CF F SUS 430 F X5 CNi Z 6 CN , 304 H SUS X 8 CNiS 18-9 Z 8 CNF SUS X2 CNiMo Z3 CND SUS316, SCS TiAl6V4 T-A6V B348 KS-130AV

133 Cutting specification multidec -CUT Stainless steel Stainless steel Aluminum Bass Hadness value (HB) Categoy Machining method Feeds Depths of cut Cutting speeds V VI VII VIII f (mm/ev) a p (mm) <4 <2.5 <1.5 <4 <2.5 <1.5 <5 <3 <2 <5 <3 <2 v c (m/min) 133 Cutting mateial cabide UHM Cutting mateial HSS HSS HSS HX egend 4

134 Application ecommendation fo numbe of passes at theading Pitch Steel Stainless steel Titanium metic (mm) UNC / UNF (T/Inch) / / / / / / / Non-feous metal egend 4

135 Choice of feed movement adial feed Applicability: Fo conventional lathes Fo piches < 2 mm Shot chipping mateials Disadvantage: Poo chip contol Feed on the flanks Applicability: Fo CNC lathes Fo piches 2 to 4 mm ong chipping mateials Good chip contol 135 Altenated feed Applicability: Fo piches > 4 mm ong chipping meteials egula wea of inset High tool-life Good chip contol Disadvantage: Complex CNC-pogamming

136 Poduct desciption multidec -ISO/TOP multidec -ISO povides a vey wide ange of ISO standadized insets fo Swiss type machining and pecision tuning. All insets consist of two o moe edges and ae easily indexed o changed. At the same time multidec -ISO povides a vey stable and shap cutting edge with a maximum adius between 0 and 0.8 mm. Innovative solut ions involving coated and uncoated insets made of cabide, cemets and diamond tips have been designed to cut vey difficult mateials. Fo all mechanical cutting conditions a lage choice of sinteed and gound insets with a wide vaiety of chip gooves ae available. 136 Advantages: age ange of standad ISO insets Shap cutting edges F ounded cutting edges E Small cone adius ( mm)

137 Oveview multidec -ISO/TOP Technical infomation 7 Application OD tuning 138 Poduct lines and accuacy classes of UTIIS STANDAD-INE 139 Aticle no A P Designation system (ISO) 140 Oveview type CC (80 ) Oveview type DC (55 ) 167 Oveview type VC (35 ) 193 Oveview type VP (35 ) 209 Stahl unlegiet Acie non allié Steel unalloyed Stahl niediglegiet Acie faibl. allié Steel low alloyed Stahl hochlegiet Acie fotem. allié Steel high alloyed Titan Titane Titanium Häte (HB) Dueté (HB) Hadness value (HB) Cutting specification Kategoie Catégie Categoy Beabeitung Usinage Machining method I II III IV 214 Accessoies 245

138 Application OD tuning multidec -ISO/TOP Tuning and facing Tuning and facing Tuning and facing Insets 143 Insets 167 Insets 193 Holdes 31, 38 Holdes 32, 39 Holdes 33, 40 SCC (95 ) SDJC (93 ) SVJC (93 ) Tuning and facing Back tuning Back tuning 138 Insets 209 Insets Insets Holdes 30, 37 Holdes Holdes SVJP (93 ) SVJP V (93 ) Tuning and undecutting Insets Holdes All illustations show ight hand design. eft hand design is also available.

139 Poduct lines and accuacy classes of UTIIS multidec -ISO/TOP Poduct line 5 Toleance index epeatability PEMIUM-INE Accuacy class of UTIIS E STANDAD-INE Accuacy class of UTIIS G Accoding to the ISO designation system fo insets VAUE-INE Accuacy class of UTIIS M / X 139 egend 4

140 Designation system (ISO 1832) multidec -ISO/TOP Indexable insets Fom of inset Cleaance angle Toleance Distinctive mak Index α Index α Index s ± d ± Index V 35 D 55 C 80 α C 7 N 0 P 11 α E G d W T M * U X s X / Z Special shape * Dependent on dimension of inset 140 DCGT FN -A3 Chip beake Cabide Coating Edge condition Cutting diection Index Index Edge length Inset thickness Cone adius F Shap eft Index l d Index s Index E ounded d / ZZ 0 N Neutal N l d T s ight l d l l d

141 Notes 141 Attention Please note the legend 4

142 Poduct desciption multidec -ISO/TOP multidec -ISO povides a well balanced ange of tools fo tuning with hombic 80 insets and holdes. Positive insets with ounded cutting edges fo oughing and shap cutting edges fo finishing ae available. 142 Advantages: High cutting volume with high feed ates Cabide and Cemet gades with chip beake and coatings fo all common mateials Diamond ange with CVD and PCD insets fo machining non-feous metals Cutting edge adius fom 0.03 to 0.8 mm as standad

143 Oveview type CC (80 ) multidec -ISO/TOP Technical infomation 7 Insets (cabide/ cemet) CCGT -PA3 CCGT -PA5 CCGT -PA7 CCXT PA9 CCGT -PF CCGT -PF23 CCMT -PF43 CCMT -PM CCMT -PMF CCMT -PM25 CCMT -PM55 CCET -U Insets (diamond) CCGT CCGT TOP CCGT -UWS CCGT TOP -UWS CCGT -UWN CCGT TOP -UWN CCGT -UW CCGW CCGW TOP

144 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCGT -PA3 C β β : 30 s : ±0.13 C : <0.002 s 144 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -PA SCC. 06 CCGT FN -PA SCC. 06 CCGT 09T304 FN -PA SCC. 09 CCGT 09T308 FN -PA SCC. 09 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide, heat and wea esistent CCGT 09 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites Optimal chip beaking 2 1 CCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

145 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCGT -PA5 C β β : 25 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 145 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -PA SCC. 06 CCGT FN -PA SCC. 06 CCGT 09T302 FN -PA SCC. 09 CCGT 09T304 FN -PA SCC. 09 CCGT 09T308 FN -PA SCC. 09 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F submicogain cabide, heat and wea esistent Optimal chip beaking ap (mm) f (mm) CCGT 09 CCGT Application: finishing and mico finishing chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

146 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCGT -PA7 C β β : 27 s : ±0.13 C : <0.002 s 146 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -PA SCC. 06 CCGT FN -PA SCC. 06 CCGT 09T3005 FN -PA SCC. 09 CCGT 09T301 FN -PA SCC. 09 CCGT 09T302 FN -PA SCC. 09 CCGT 09T304 FN -PA SCC. 09 CCGT 09T308 FN -PA SCC. 09 Application ange of chip beake Popeties: gound cleaance shap cutting edge F micogain cabide, heat and wea esistent CCGT 09 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with good chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites Optimal chip beaking 2 1 CCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

147 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCXT -PA9 C β β : 25 s : ±0.1 C : <0.01 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 147 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCXT EN -PA SCC. 06 CCXT 09T304 EN -PA SCC. 09 CCXT 09T308 EN -PA SCC. 09 Application ange of chip beake Popeties: high pecision sinteed inset ounded cutting edge E micogain cabide, heat and wea esistent best pefomance-cost atio CCXT 09 ap (mm) f (mm) Application: finishing chip beake fo soft mateials with good chip contol alloyed steel, stainless steel, supe alloy, titanium and aluminum Optimal chip beaking CCXT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

148 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCGT -PF C β β : 8 s : ±0.13 C : <0.01 s 148 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT EN -PF SCC. 06 CCGT EN -PF SCC. 06 CCGT 09T302 EN -PF SCC. 09 CCGT 09T304 EN -PF SCC. 09 CCGT 09T308 EN -PF SCC. 09 Application ange of chip beake Popeties: gound cleaance little ounded cutting edge E cabide and cemet in diffeent gades ap (mm) f (mm) Application: finishing and mico finishing chip beake fo geneal application alloyed steel and stainless steel Optimal chip beaking 2 1 CCGT 09 CCGT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

149 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCGT -PF23 C β β : 12 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 149 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -PF SCC. 06 CCGT FN -PF SCC. 06 CCGT FN -PF SCC. 06 CCGT 09T3005 FN -PF SCC. 09 CCGT 09T301 FN -PF SCC. 09 CCGT 09T302 FN -PF SCC. 09 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 Optimal chip beaking CCGT 09 CCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

150 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCMT -PF43 C β β : 12 s : ±0.13 C : <0.02 s 150 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCMT EN -PF SCC. 06 CCMT EN -PF SCC. 06 CCMT 09T302 EN -PF SCC. 09 CCMT 09T304 EN -PF SCC. 09 CCMT 09T308 EN -PF SCC. 09 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 Optimal chip beaking CCMT 09 CCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

151 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCMT -PM C β β : 8 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 151 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCMT EN -PM SCC. 06 CCMT EN -PM SCC. 06 CCMT 09T304 EN -PM SCC. 09 CCMT 09T308 EN -PM SCC. 09 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing chip beake fo geneal application alloyed steel and stainless steel 5 4 Optimal chip beaking CCMT 09 CCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

152 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCMT -PMF C β β : 8 s : ±0.13 C : <0.02 s 152 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCMT EN -PMF SCC. 06 CCMT 09T304 EN -PMF SCC. 09 CCMT 09T308 EN -PMF SCC. 09 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo geneal application alloyed steel and stainless steel 5 4 Optimal chip beaking CCMT 09 CCMT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

153 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCMT -PM25 C β β : 18 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 153 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCMT EN -PM SCC. 06 CCMT 09T304 EN -PM SCC. 09 CCMT 09T308 EN -PM SCC. 09 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo mateials with difficult chip contol stainless steel 5 4 Optimal chip beaking CCMT 09 CCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

154 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCMT -PM55 C β β : 16 s : ±0.13 C : <0.02 s 154 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCMT EN -PM SCC. 06 CCMT 09T304 EN -PM SCC. 09 CCMT 09T308 EN -PM SCC. 09 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing chip beake fo geneal application stainless steel 5 4 Optimal chip beaking CCMT 09 CCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

155 Insets (Cabide / Cemet) multidec -ISO/TOP l 80 l 1 CCET -U C β β : 12 s : ±0.025 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 155 PEMIUM-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCET F -U SCC. 06 CCET F -U SCC. 06 CCET F -U SCC. 06 CCET 09T3003 F -U SCC. 09 CCET 09T301 F -U SCC. 09 CCET 09T302 F -U SCC. 09 Application ange of chip beake Popeties: gound ake and cleaence shap cutting edge F submicogain cabide, heat and wea esistent and cemet ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 Optimal chip beaking CCET 09 CCET I II III IV V IV VII VIII IX Technical infomation 10 egend 4

156 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT C β β : 7 s : ±0.13 C : <0.002 s 156 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN SCC. 06 CCGT FN SCC. 06 CCGT FN SCC. 06 CCGT FN SCC. 06 CCGT 09T302 FN SCC. 09 CCGT 09T304 FN SCC. 09 CCGT 09T308 FN SCC. 09 Application ange of chip beake Popeties: shap cutting edge F less cutting foce positive cut CCGT ap (mm) f (mm) Application: finishing and mico finishing fo unstable o thin-walled pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

157 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT TOP C β β : 7 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 157 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 CCGT FN TOP SCC. 06 CCGT FN TOP SCC. 06 CCGT FN TOP SCC. 06 CCGT 09T302 FN TOP SCC. 09 CCGT 09T304 FN TOP SCC. 09 CCGT 09T308 FN TOP SCC. 09 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F less cutting foce positive cut TOP system, fo a bette suface finish CCGT ap (mm) f (mm) Application: finishing and mico finishing fo unstable o thin-walled pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

158 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT -UWS C β β : s : ±0.13 C : <0.002 s 158 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -UWS SCC. 06 CCGT FN -UWS SCC. 06 CCGT FN -UWS SCC. 06 CCGT 09T302 FN -UWS SCC. 09 CCGT 09T304 FN -UWS SCC. 09 Application ange of chip beake Popeties: shap cutting edge F almost any cutting foce high positive naow chip beake made by lase ap (mm) f (mm) Application: mico finishing fo unstable o thin-walled pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

159 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT TOP -UWS C β β : s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 159 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 CCGT FN TOP -UWS SCC. 06 CCGT FN TOP -UWS SCC. 06 CCGT 09T302 FN TOP -UWS SCC. 09 CCGT 09T304 FN TOP -UWS SCC. 09 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F almost any cutting foce high positive naow chip beake made by lase TOP system, fo a bette suface finish ap (mm) f (mm) Application: mico finishing fo unstable o thin-walled pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

160 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT -UWN C β β : s : ±0.13 C : <0.005 s 160 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -UWN SCC. 06 CCGT FN -UWN SCC. 06 CCGT FN -UWN SCC. 06 CCGT 09T302 FN -UWN SCC. 09 CCGT 09T304 FN -UWN SCC. 09 CCGT 09T308 FN -UWN SCC. 09 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: finishing fo stable o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and best suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

161 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT TOP -UWN C β β : s : ±0.13 C : <0.005 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 161 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 CCGT FN TOP -UWN SCC. 06 CCGT FN TOP -UWN SCC. 06 CCGT 09T302 FN TOP- UWN SCC. 09 CCGT 09T304 FN TOP -UWN SCC. 09 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase TOP system, fo a bette suface finish ap (mm) f (mm) Application: finishing fo stable o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and best suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

162 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGT -UW C β β : s : ±0.13 C : <0.005 s 162 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGT FN -UW SCC. 06 CCGT 09T304 FN -UW SCC. 09 CCGT 09T308 FN -UW SCC. 09 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: finishing fo stable o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics maximum chip to chip volume 1.2 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

163 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGW C β β : 0 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 163 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 CCGW FN SCC. 06 CCGW FN SCC. 06 CCGW FN SCC. 06 CCGW FN SCC. 06 CCGW 09T302 FN SCC. 09 CCGW 09T304 FN SCC. 09 CCGW 09T308 FN SCC. 09 Application ange of chip beake Popeties: shap cutting edge F medium cutting foce neutal cut CCGW ap (mm) f (mm) Application: finishing and mico finishing fo stable o solid pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and high suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

164 Insets (Diamond) multidec -ISO/TOP l 80 l 1 CCGW TOP C β β : 0 s : ±0.13 C : <0.002 s 164 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 CCGW FN TOP SCC. 06 CCGW FN TOP SCC. 06 CCGW FN TOP SCC. 06 CCGW 09T301 FN TOP SCC. 09 CCGW 09T302 FN TOP SCC. 09 CCGW 09T304 FN TOP SCC. 09 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F medium cutting foce neutal cut TOP system, fo a bette suface finish CCGW ap (mm) f (mm) Application: finishing and mico finishing fo stable o solid pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and high suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

165 Notes 165 Attention Please note the legend 4

166 Poduct desciption multidec -ISO/TOP multidec -ISO povides a well balanced ange of tools fo tuning with hombic 55 insets and holdes. Positive insets with ounded cutting edges fo oughing and shap cutting edges fo finishing ae available. 166 Advantages: Cabide and Cemet gades with chip beake and coatings fo all common mateials Diamond ange with CVD and PCD insets fo machining non-feous metals Cutting edge adius fom 0.03 to 0.8 mm as standad

167 Oveview type DC (55 ) multidec -ISO/TOP Technical infomation 7 Insets (cabide/ cemet) DCGT -A3 DCGT -PA3 DCGT -PA5 DCGT -TOP5 DCGT -PA7 DCXT -PA9 DCGT -PF DCMT -PF DCGT -PF23 DCGT -PF33 DCMT -PF43 DCMT -PM DCMT -PMF DCMT -PM25 DCMT -PM55 DCET -U Insets (diamond) DCGT DCGT TOP DCGT -UWS DCGT -UWN DCGT -UW DCGW DCGW TOP

168 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -A3 C β β : 30 s : ±0.13 C : <0.002 s 168 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -A SDJC. 07 DCGT FN -A SDJC. 07 DCGT FN -A SDJC. 07 DCGT 11T3008 FN -A SDJC. 11 DCGT 11T3015 FN -A SDJC. 11 DCGT 11T3035 FN -A SDJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F submicogain cabide, heat and wea esistent DCGT 11 ap (mm) f (mm) Application: mico finishing chip beake fo geneal application stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites 4 3 DCGT 07 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

169 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PA3 C β β : 30 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 169 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -PA SDJC. 07 DCGT 11T304 FN -PA SDJC. 11 DCGT 11T308 FN -PA SDJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide, heat and wea esistent DCGT 11 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites Optimal chip beaking DCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

170 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PA5 C β β : 25 s : ±0.13 C : <0.002 s 170 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -PA SDJC. 07 DCGT FN -PA SDJC. 07 DCGT 11T302 FN -PA SDJC. 11 DCGT 11T304 FN -PA SDJC. 11 DCGT 11T308 FN -PA SDJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F submicogain cabide, heat and wea esistent DCGT 11 DCGT 07 ap (mm) f (mm) Application: finishing and mico finishing chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

171 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -TOP5* C β β : 25 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 171 STANDAD-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT 11T304 F -TOP SDJC. 11 DCGT 11T308 F -TOP SDJC. 11 N DCGT 11T304 FN -TOP SDJC. 11 DCGT 11T308 FN -TOP SDJC. 11 DCGT 11T304 F -TOP SDJC. 11 DCGT 11T308 F -TOP SDJC. 11 * Desciption TOP 21 Application ange of chip beake Popeties: polished ake and gound cleaance shap cutting edge F micogain cabide, heat and wea esistent TOP system, fo a bette suface finish DCGT 11 DCGT 07 ap (mm) f (mm) Application: finishing fo % highe feed ates compai to the standad chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

172 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PA7 C β β : 27 s : ±0.13 C : <0.002 s 172 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -PA SDJC. 07 DCGT FN -PA SDJC. 07 DCGT FN -PA SDJC. 07 DCGT FN -PA SDJC. 07 DCGT 11T3005 FN -PA SDJC. 11 DCGT 11T301 FN -PA SDJC. 11 DCGT 11T302 FN -PA SDJC. 11 DCGT 11T304 FN -PA SDJC. 11 DCGT 11T308 FN -PA SDJC. 11 Application ange of chip beake Popeties: gound cleaance shap cutting edge F micogain cabide, heat and wea esistent DCGT 11 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with good chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites 4 Optimal chip beaking DCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

173 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCXT -PA9 C β β : 25 s : ±0.1 C : <0.01 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 173 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCXT EN -PA SDJC. 07 DCXT 11T304 EN -PA SDJC. 11 DCXT 11T308 EN -PA SDJC. 11 Application ange of chip beake Popeties: high pecision sinteed inset ounded cutting edge E micogain cabide, heat and wea esistent best pefomance-cost atio DCXT 11 ap (mm) f (mm) Application: finishing chip beake fo soft mateials with good chip contol alloyed steel, stainless steel, supe alloy, titanium and aluminum 4 3 DCXT 07 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

174 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PF C β β : 8 s : ±0.13 C : <0.01 s 174 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT EN -PF SDJC. 07 DCGT EN -PF SDJC. 07 DCGT EN -PF SDJC. 07 DCGT 11T302 EN -PF SDJC. 11 DCGT 11T304 EN -PF SDJC. 11 DCGT 11T308 EN -PF SDJC. 11 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT 11T302 FN -PF SDJC. 11 DCGT 11T304 FN -PF SDJC. 11 Application ange of chip beake Popeties: gound cleaance little ounded cutting edge E shap cutting edge F cabide and cemet in diffeent gades ap (mm) f (mm) Application: finishing and mico finishing chip beake fo geneal application alloyed steel and stainless steel DCGT 11 Optimal chip beaking 2 1 DCGT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

175 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PF C β β : 8 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 175 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PF SDJC. 07 DCMT 11T304 EN -PF SDJC. 11 DCMT 11T308 EN -PF SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E cabide and cemet in diffeent gades ap (mm) f (mm) Application: oughing chip beake fo geneal application alloyed steel and stainless steel DCMT 11 Optimal chip beaking 2 1 DCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

176 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PF23 C β β : 12 s : ±0.13 C : <0.002 s 176 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT EN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT 11T3005 FN -PF SDJC. 11 DCGT 11T301 FN -PF SDJC. 11 DCGT 11T302 FN -PF SDJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 DCGT 11 Optimal chip beaking DCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

177 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCGT -PF33 C β β : 12 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 177 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT FN -PF SDJC. 07 DCGT 11T3005 FN -PF SDJC. 11 DCGT 11T301 FN -PF SDJC. 11 DCGT 11T302 FN -PF SDJC. 11 DCGT 11T304 FN -PF SDJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide DCGT 11 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 4 3 DCGT 07 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

178 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PF43 C β β : 12 s : ±0.13 C : <0.02 s 178 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PF SDJC. 07 DCMT EN -PF SDJC. 07 DCMT 11T302 EN -PF SDJC. 11 DCMT 11T304 EN -PF SDJC. 11 DCMT 11T308 EN -PF SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 DCMT 11 Optimal chip beaking DCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

179 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PM C β β : 8 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 179 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PM SDJC. 07 DCMT EN -PM SDJC. 07 DCMT 11T304 EN -PM SDJC. 11 DCMT 11T308 EN -PM SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing chip beake fo geneal application alloyed steel and stainless steel DCMT 11 Optimal chip beaking 2 1 DCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

180 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PMF C β β : 8 s : ±0.13 C : <0.02 s 180 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PMF SDJC. 07 DCMT EN -PMF SDJC. 07 DCMT 11T304 EN -PMF SDJC. 11 DCMT 11T308 EN -PMF SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo geneal application alloyed steel and stainless steel DCMT 11 Optimal chip beaking 2 1 DCMT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

181 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PM25 C β β : 18 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 181 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PM SDJC. 07 DCMT EN -PM SDJC. 07 DCMT11T302 EN -PM SDJC. 11 DCMT11T304 EN -PM SDJC. 11 DCMT11T308 EN -PM SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo mateials with difficult chip contol stainless steel 5 4 Optimal chip beaking DCMT 11 DCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

182 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCMT -PM55 C β β : 16 s : ±0.13 C : <0.02 s 182 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCMT EN -PM SDJC. 07 DCMT EN -PM SDJC. 07 DCMT11T304 EN -PM SDJC. 11 DCMT11T308 EN -PM SDJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing chip beake fo geneal application stainless steel DCMT 11 Optimal chip beaking 2 1 DCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

183 Insets (Cabide / Cemet) multidec -ISO/TOP l 55 l 1 DCET -U C β β : 12 s : ±0.025 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 183 PEMIUM-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCET F -U SDJC. 07 DCET F -U SDJC. 07 DCET F -U SDJC. 07 DCET 11T301 F -U SDJC. 11 DCET 11T302 F -U SDJC. 11 DCET 11T304 F -U SDJC. 11 Application ange of chip beake Popeties: gound ake and cleaence shap cutting edge F submicogain cabide, heat and wea esistent and cemet ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 Optimal chip beaking DCET 11 DCET I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

184 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGT C β β : 5 7 s : ±0.13 C : <0.002 s 184 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN SDJC. 07 DCGT FN SDJC. 07 DCGT FN SDJC. 07 DCGT FN SDJC. 07 DCGT 11T301 FN SDJC. 11 DCGT 11T302 FN SDJC. 11 DCGT 11T304 FN SDJC. 11 DCGT 11T308 FN SDJC. 11 DCGT 11T312 FN SDJC. 11 Application ange of chip beake Popeties: shap cutting edge F less cutting foce positive cut DCGT ap (mm) f (mm) Application: finishing and mico finishing fo unstable o thin-walled pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

185 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGT TOP* C β β : 5 7 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 185 STANDAD-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 DCGT F TOP SDJC. 07 DCGT F TOP SDJC. 07 DCGT 11T301 F TOP SDJC. 11 DCGT 11T302 F TOP SDJC. 11 DCGT F TOP SDJC. 07 DCGT F TOP SDJC. 07 DCGT 11T301 F TOP SDJC. 11 DCGT 11T302 F TOP SDJC. 11 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F less cutting foce positive cut TOP system, fo a bette suface finish DCGT ap (mm) f (mm) Application: finishing and mico finishing fo unstable o thin-walled pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

186 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGT -UWS C β β : s : ±0.13 C : <0.002 s 186 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -UWS SDJC. 07 DCGT FN -UWS SDJC. 07 DCGT FN -UWS SDJC. 07 DCGT FN -UWS SDJC. 07 DCGT 11T301 FN -UWS SDJC. 11 DCGT 11T302 FN -UWS SDJC. 11 DCGT 11T304 FN -UWS SDJC. 11 DCGT 11T308 FN -UWS SDJC. 11 DCGT 11T312 FN -UWS SDJC. 11 Application ange of chip beake Popeties: shap cutting edge F almost any cutting foce high positive naow chip beake made by lase ap (mm) f (mm) Application: mico finishing fo unstable o thin-walled pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

187 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGT -UWN C β β : s : ±0.13 C : <0.005 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 187 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGT FN -UWN SDJC. 07 DCGT FN -UWN SDJC. 07 DCGT FN -UWN SDJC. 07 DCGT FN -UWN SDJC. 07 DCGT 11T301 FN -UWN SDJC. 11 DCGT 11T302 FN -UWN SDJC. 11 DCGT 11T304 FN -UWN SDJC. 11 DCGT 11T308 FN -UWN SDJC. 11 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: finishing fo stable o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and best suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

188 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGT -UW C β β : s : ±0.13 C : <0.005 s 188 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 DCGT FN -UW SDJC. 07 DCGT 11T304 FN -UW SDJC. 11 DCGT 11T308 FN -UW SDJC. 11 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: machining of massive o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics maximum metal emoval ate 1.2 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

189 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGW C β β : 0 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 189 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGW FN SDJC. 07 DCGW FN SDJC. 07 DCGW FN SDJC. 07 DCGW FN SDJC. 07 DCGW 11T301 FN SDJC. 11 DCGW 11T302 FN SDJC. 11 DCGW 11T304 FN SDJC. 11 DCGW 11T308 FN SDJC. 11 DCGW 11T312 FN SDJC. 11 Application ange of chip beake Popeties: shap cutting edge F medium cutting foce neutal cut DCGW ap (mm) f (mm) Application: finishing and mico finishing fo stable o solid pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and high suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

190 Insets (Diamond) multidec -ISO/TOP l 55 l 1 DCGW TOP* C β β : 0 s : ±0.13 C : <0.002 s 190 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 DCGW 11T301 F TOP SDJC. 11 DCGW 11T302 F TOP SDJC. 11 DCGW 11T302 F TOP SDJC. 11 DCGW 11T301 F TOP SDJC. 11 * Desciption TOP 21 Application ange of chip beake Popeties: shap cutting edge F medium cutting foce neutal cut TOP system, fo a bette suface finish DCGW ap (mm) f (mm) Application: finishing and mico finishing fo stable o solid pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and high suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

191 Notes 191 Attention Please note the legend 4

192 Poduct desciption multidec -ISO/TOP multidec -ISO povides a well balanced ange of tools fo tuning with hombic 35 insets and holdes. Positive insets with ounded cutting edges fo oughing and shap cutting edges fo finishing ae available. 192 Advantages: Cabide and Cemet gades with chip beake and coatings fo all common mateials Diamond ange with CVD and PCD insets fo machining non-feous metals Cutting edge adius fom 0.05 to 0.8 mm as standad

193 Oveview type VC (35 ) multidec -ISO/TOP Technical infomation 7 Insets (cabide/ cemet) VCGT -A3 VCGT -PA5 VCGT -TOP5 VCGT -PA7 VCGT -PF VCGT -PF23 VCGT -PF33 VCMT -PF43 VCMT -PMF Insets (diamond) VCGT VCGT -UWS VCGT -UWN VCGT -UW VCGW

194 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -A3 C β β : 30 s : ±0.13 C : <0.002 s 194 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -A SVJC. 11 VCGT FN -A SVJC. 11 VCGT FN -A SVJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F submicogain cabide, heat and wea esistent ap (mm) f (mm) Application: mico finishing chip beake fo geneal application stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites 4 3 VCGT 11 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

195 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -PA5 C β β : 25 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 195 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -PA SVJC. 11 VCGT FN -PA SVJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F submicogain cabide, heat and wea esistent VCGT 11 ap (mm) f (mm) Application: finishing and mico finishing chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites 3 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

196 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -TOP5* C β β : 25 s : ±0.13 C : <0.002 s 196 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT F -TOP SVJC. 11 VCGT F -TOP SVJC. 11 * Desciption TOP 21 Application ange of chip beake Popeties: polished ake and gound cleaance shap cutting edge F micogain cabide, heat and wea esistent TOP system, fo a bette suface finish VCGT 11 ap (mm) f (mm) Application: finishing fo % highe feed ates compai to the standad chip beake fo mateials with difficult chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/composites 3 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

197 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -PA7 C β β : 27 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 197 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -PA SVJC. 11 VCGT FN -PA SVJC. 11 VCGT FN -PA SVJC. 11 VCGT FN -PA SVJC. 11 VCGT FN -PA SVJC. 11 Application ange of chip beake Popeties: gound cleaance shap cutting edge F micogain cabide, heat and wea esistent VCGT 11 ap (mm) f (mm) Application: mico finishing chip beake fo mateials with good chip contol stainless steel, alloyed steel, titanium, supe alloy, aluminum and synthetics einfoced/ composites 3 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

198 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -PF C β β : 8 s : ±0.13 C : <0.01 s 198 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT EN -PF SVJC. 11 VCGT EN -PF SVJC. 11 VCGT EN -PF SVJC. 11 Application ange of chip beake Popeties: gound cleaance little ounded cutting edge E cabide and cemet in diffeent gades ap (mm) f (mm) Application: finishing and mico finishing chip beake fo geneal application alloyed steel and stainless steel 5 4 Optimal chip beaking VCGT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

199 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -PF23 C β β : 12 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 199 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -PF SVJC. 11 VCGT FN -PF SVJC. 11 VCGT FN -PF SVJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 Optimal chip beaking VCGT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

200 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCGT -PF33 C β β : 12 s : ±0.13 C : <0.002 s 200 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -PF SVJC. 11 VCGT FN -PF SVJC. 11 VCGT FN -PF SVJC. 11 VCGT FN -PF SVJC. 11 Application ange of chip beake Popeties: polished ake gound cleaance shap cutting edge F micogain cabide ap (mm) f (mm) Application: mico finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 VCGT 11 3 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

201 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCMT -PF43 C β β : 12 s : ±0.13 C : <0.02 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 201 VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCMT EN -PF SVJC. 11 VCMT EN -PF SVJC. 11 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo mateials with difficult chip contol alloyed steel and stainless steel 5 4 Optimal chip beaking VCMT I II III IV V IV VII VIII IX Technical infomation 10 egend 4

202 Insets (Cabide / Cemet) multidec -ISO/TOP l 35 l 1 VCMT -PMF C β β : 8 s : ±0.13 C : <0.02 s 202 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX VCMT EN -PMF SVJC. 11 UCM 10 MZ UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: sinteed inset based on ISO standad ounded cutting edge E micogain cabide ap (mm) f (mm) Application: oughing and finishing chip beake fo geneal application alloyed steel and stainless steel Optimal chip beaking 2 1 VCMT I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

203 Insets (Diamond) multidec -ISO/TOP l 35 l 1 VCGT C β β : 7 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 203 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN SVJC. 11 VCGT FN SVJC. 11 VCGT FN SVJC. 11 VCGT FN SVJC. 11 Application ange of chip beake Popeties: shap cutting edge F less cutting foce positive cut VCGT ap (mm) f (mm) Application: finishing and mico finishing fo unstable o thin-walled pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

204 Insets (Diamond) multidec -ISO/TOP l 35 l 1 VCGT -UWS C β β : s : ±0.13 C : <0.002 s 204 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -UWS SVJC. 11 VCGT FN -UWS SVJC. 11 VCGT FN -UWS SVJC. 11 Application ange of chip beake Popeties: shap cutting edge F almost any cutting foce high positive naow chip beake made by lase ap (mm) f (mm) Application: mico finishing fo unstable o thin-walled pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics Ideal fo smallest toleance and medium suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

205 Insets (Diamond) multidec -ISO/TOP l 35 l 1 VCGT -UWN C β β : s : ±0.13 C : <0.005 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 205 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGT FN -UWN SVJC. 11 VCGT FN -UWN SVJC. 11 VCGT FN -UWN SVJC. 11 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: finishing fo stable o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminium, platinium, gold and synthetics Ideal fo smallest toleance and best suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

206 Insets (Diamond) multidec -ISO/TOP l 35 l 1 VCGT -UW C β β : s : ±0.13 C : <0.005 s 206 Ode designation Cabide 15 Cemet Diamond Dimensions Holde STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 VCGT FN -UW SVJC. 11 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: shap cutting edge F highe cutting foce high positive wide chip beake made by lase ap (mm) f (mm) Application: machining of massive o solid pats chip beake fo mateials with difficult chip contol synthetics einfoced/composites, aluminum, platinium, gold and synthetics maximum metal emoval ate 1.2 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

207 Insets (Diamond) multidec -ISO/TOP l 35 l 1 VCGW C β β : 0 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 207 STANDAD-INE N 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VCGW FN SVJC. 11 VCGW FN SVJC. 11 VCGW FN SVJC. 11 VCGW FN SVJC. 11 Application ange of chip beake Popeties: shap cutting edge F medium cutting foce neutal cut VCGW ap (mm) f (mm) Application: finishing and mico finishing fo stable o solid pats chip beake fo geneal application will geneate continues chip aluminum, bass, coppe, bonze, platinium, gold, synthetics and synthetics einfoced/composites Ideal fo smallest toleance and high suface quality Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 New egend 4

208 Poduct desciption multidec -ISO/TOP The TOP system with dag-cut pemits an incease of the feed ate of up to 100 % compaed to conventional ISO insets. The VPGT 1003 F povides a shap cutting edge fo semi-finishing, finishing and mico-finishing. The VPET 1003 F povides a shap cutting edge and the toleance of its inset height is moe pecise. This is an advantage as the height does not have to be eset when changing the inset. The VPXT 1003 E is a diectly pessed inset with ounded cutting edge fo oughing and semifinishing. The UHM10 cabide gade is a sub-micogain with maximum wea esistance while the UHM30 is a gade with high tensile ductility. Both ae suitable fo mateials that ae difficult to pocess, such as stainless steels and supealloys. The new cabide gade UHM20, togethe with the new developed coating HPX, povides a wea esistant and at the same time tough gade with a wide ange of applications, adapted fo machining steels, stainless steels and limited use also in supealloys. 208 Advantages: Font tuning, back tuning and facing with one inset Cabide gades and coatings fo steel, stainless steel and supealloys Cutting edge adius fom 0 to 0.35 mm available as standad

209 Oveview type VP (35 ) multidec -ISO/TOP Technical infomation 7 Insets (cabide/ cemet) VPET TOP VPGT TOP VPXT TOP

210 Insets (Cabide / Cemet) multidec -ISO/TOP l l 1 VPET -TOP* C β β : 12 s : ±0.025 C : <0.002 s 210 Ode designation Cabide 15 Cemet Diamond Dimensions Holde PEMIUM-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 VPET 1003ZZ F -TOP SVJP. 10 VPET F -TOP SVJP. 10 VPET F - TOP SVJP. 10 VPET 1003ZZ F -TOP SVJP. 10 VPET F -TOP SVJP. 10 VPET F -TOP SVJP. 10 VPET F -TOP SVJP. 10 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: polished ake and gound cleaance shap cutting edge F submicogain cabide, high toughness TOP system, fo a bette suface finish Close toleance E ap (mm) f (mm) Application: finishing fo % highe feed ates compai to the standad chip beake fo geneal application stainless steel, alloyed steel and supe alloy 4 3 VPET 10 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

211 Insets (Cabide / Cemet) multidec -ISO/TOP l l 1 VPGT -TOP* C β β : 12 s : ±0.13 C : <0.002 s Ode designation Cabide 15 Cemet Diamond Dimensions Holde 211 STANDAD-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 VPGT E -TOP SVJP. 10 VPGT 1003ZZ F -TOP SVJP. 10 VPGT F -TOP SVJP. 10 VPGT F -TOP SVJP. 10 VPGT 1003ZZ F -TOP SVJP. 10 VPGT F -TOP SVJP. 10 VPGT F -TOP SVJP. 10 VPGT F -TOP SVJP. 10 * Desciption TOP 21 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 Application ange of chip beake Popeties: polished ake and gound cleaance shap cutting edge F submicogain cabide, high toughness TOP system, fo a bette suface finish ap (mm) f (mm) Application: finishing fo % highe feed ates compai to the standad chip beake fo geneal application stainless steel, alloyed steel and supe alloy VPGT 10 Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

212 Insets (Cabide / Cemet) multidec -ISO/TOP l l 1 VPXT -TOP* C β β : 12 s : ±0.1 C : <0.02 s 212 Ode designation Cabide 15 Cemet Diamond Dimensions Holde VAUE-INE 27 l l 1 UHM 10 UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX UCM 10 UCM 10 HX UCVD 08 UPCD 15 UPCD 20 Accuacy class of Utilis 5 VPXT E -TOP SVJP. 10 VPXT E -TOP SVJP. 10 VPXT E -TOP SVJP. 10 VPXT E -TOP SVJP. 10 * Desciption TOP 21 Application ange of chip beake Popeties: high pecision sinteed inset ounded cutting edge E submicogain cabide, high toughness and hadnes TOP system, fo a bette suface finish best pefomance-cost atio VPXT 10 ap (mm) f (mm) Application: finishing fo % highe feed ates compai to the standad chip beake fo geneal application alloyed steel, stainless steel and supe alloy Optimal chip beaking I II III IV V IV VII VIII IX Technical infomation 10 egend 4

213 Notes 213 Attention Please note the legend 4

214 Cutting specification multidec -ISO/TOP Steel unalloyed Steel low alloyed Steel high alloyed Titanium Hadness value (HB) Categoy Machining method Cutting speeds I II III IV v c (m/min) Cutting mateial cabide 214 UHM UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX Cutting mateial cemet UCM UCM 10 HX Cutting mateial diamond UCVD 08 UPCD 15 UPCD 20 Feed (f) and depths of cut (a p ) 144

215 Cutting specification multidec -ISO/TOP Stainless steel Stainless steel Aluminum Bass Hadness value (HB) Categoy Machining method Cutting speeds V VI VII VIII v c (m/min) Cutting mateial cabide UHM UHM 10 HX UHM 10 MZ UHM 20 MZ MZ SX Cutting mateial cemet UCM UCM 10 HX Cutting mateial diamond UCVD UPCD UPCD Feed (f) and depths of cut (a p ) 144 egend 4

216 Poduct desciption multidec -BOE MICO multidec -BOE MICO povides a wide ange of insets fo miniatuized ID-tuning (diamete between 0.5 and 8 mm). Shap edges, small adii and gound sufaces guaantee accuate cutting. multidec-boe MICO is excellent fo machining of common mateials as well as exotic alloys. multidec -BOE MICO cabide tools ae available with wea-esistant coatings as well as uncoated. 216 Advantages: Fo intenal machining methods with small diametes: high positioning accuacy intenal cooling system and smallest intenal diamete of 0.5 mm Shap cutting edges Diffeent coatings ae available tenacious cabide gade coated and uncoated

217 Oveview multidec -BOE MICO Technical infomation 7 Application ID tuning 218 Poduct lines and accuacy classes of UTIIS STANDAD-INE 220 Insets 221 Stahl unlegiet Acie non allié Steel unalloyed Stahl niediglegiet Acie faibl. allié Steel low alloyed Stahl hochlegiet Acie fotem. allié Steel high alloyed Titan Titane Titanium Häte (HB) Dueté (HB) Hadness value (HB) Cutting specification Kategoie Catégie Categoy Beabeitung Usinage Machining method I II III IV 242 Accessoies

218 Application ID tuning multidec -BOE MICO Dilling and Tuning Font tuning Tuning and facing Insets 222 Insets 228 Insets 224 SDG/SXG SDH SDI/SXI/SDF/SXF Tuning and font tuning Back tuning Tuning Insets 229 Insets 230 Insets 231 SDK SDM SDO 218 Tuning adius-gooving Gooving Insets 232 Insets 233 Insets 234 SDQ SD SDS Gooving and Tuning Theading (patial pofile) Theading (full pofile) Insets 235 Insets 236 Insets 237 SDT SDU SDV

219 Application ID tuning multidec -BOE MICO Chamfeing adius Copy tuning (axial) Insets 240 Insets 241 Insets 238 SDY SDZ SXJ Gooving (axial) Insets 239 SXP 219 Special insets/boaching (on demand) Insets SD * * Ø < 2.5: SD - 4 Ø > 2.5: SD - 6 Ø > 4: SD - 8

220 Poduct lines and accuacy classes of UTIIS multidec -BOE MICO Poduct line 5 epeatability PEMIUM-INE Accuacy class of UTIIS < 10 µm STANDAD-INE Accuacy class of UTIIS < 20 µm BUDGET-INE Accuacy class of UTIIS < 50 µm 220 egend 4

221 Insets multidec -BOE MICO Blank d0 SD l0 Ode designation Cabide 15 Dimensions Holde PEMIUM-INE 27 d 0 l 0 UHM 20 SD SDA 4 SD SDA 6 SD SDA 8 Accuacy class of Utilis egend 4

222 Insets multidec -BOE MICO Dilling and tuning δ Dmin a d0 SDG max β X-off l 1 l0 Ode designation Cabide 15 Dimensions Holde 222 * PEMIUM-INE 27 D min l 1 d 0 a X-off l 0 max β δ UHM 20 UHM 20 HX SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 4 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 6 SDG SDA 8 SDG SDA 8 SDG SDA 8 SDG SDA 8 SDG SDA 8 SDG SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 New egend 4

223 Insets multidec -BOE MICO Dilling and tuning Stenghten type (fo blind holes) α Dmin a d0 max β X-off l 1 SXG l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off l 0 max α β UHM 20 UHM 20 HX SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 4 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 6 SXG SDA 8 SXG SDA 8 SXG SDA 8 SXG SDA 8 SXG SDA 8 SXG SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis New egend 4

224 Insets multidec -BOE MICO Tuning and facing α a d0 max β Dmin X-off l 2 l 1 SDI l 0 Ode designation Cabide 15 Dimensions Holde 224 * PEMIUM-INE 27 D min l 1 d 0 a X-off l 0 l 2 max α β UHM 20 UHM 20 HX SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 4 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 6 SDI SDA 8 SDI SDA 8 SDI SDA 8 SDI SDA 8 SDI SDA 8 SDI SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 New egend 4

225 Insets multidec -BOE MICO Tuning and facing Stenghten type (fo blind holes) α Dmin a d0 max β X-off l 1 SXI l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off l 0 max α β UHM 20 UHM 20 HX SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 4 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 6 SXI SDA 8 SXI SDA 8 SXI SDA 8 SXI SDA 8 SXI SDA 8 SXI SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis New egend 4

226 Insets multidec -BOE MICO Tuning and facing α Dmin a d0 β h X-off l 2 l 1 SDF l 0 Ode designation Cabide 15 Dimensions Holde 226 * PEMIUM-INE 27 D min l 1 d 0 a X-off h l 0 l 2 α β UHM 20 UHM 20 HX SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 4 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 6 SDF SDA 8 SDF SDA 8 SDF SDA 8 SDF SDA 8 SDF SDA 8 SDF SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 New egend 4

227 Insets multidec -BOE MICO Tuning and facing Stenghten type (fo blind holes) α Dmin a d0 max β X-off l 1 SXF l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off h l 0 l 2 α β UHM 20 UHM 20 HX SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 4 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 SXF SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis New egend 4

228 Dmin a d0 t Insets multidec -BOE MICO Font tuning α SDH β h X-off l 1 l0 Ode designation Cabide 15 Dimensions Holde 228 * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 α β UHM 20 UHM 20 HX SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 4 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 6 SDH SDA 8 SDH SDA 8 SDH SDA 8 SDH SDA 8 SDH SDA 8 SDH SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

229 Dmin a d0 t Insets multidec -BOE MICO Tuning and font tuning α max γ β h X-off l 2 l 1 SDK l 0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 l 2 max α β γ UHM 20 UHM 20 HX SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 4 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 6 SDK SDA 8 SDK SDA 8 SDK SDA 8 SDK SDA 8 SDK SDA 8 SDK SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis egend 4

230 Dmin t Insets multidec -BOE MICO Back tuning α γ a d0 SDM β max h X-off l 2 l 1 l0 Ode designation Cabide 15 Dimensions Holde 230 * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 l 2 max α β γ UHM 20 UHM 20 HX SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 4 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 6 SDM SDA 8 SDM SDA 8 SDM SDA 8 SDM SDA 8 SDM SDA 8 SDM SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

231 h Dmin a d0 t Insets multidec -BOE MICO Tuning δ SDO X-off l 1 l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 δ UHM 20 UHM 20 HX SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 4 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 6 SDO SDA 8 SDO SDA 8 SDO SDA 8 SDO SDA 8 SDO SDA 8 SDO SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis egend 4

232 t Insets multidec -BOE MICO Tuning α β Dmin a d0 SDQ h X-off l 1 l0 Ode designation Cabide 15 Dimensions Holde 232 * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 α β UHM 20 UHM 20 HX SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 4 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 6 SDQ SDA 8 SDQ SDA 8 SDQ SDA 8 SDQ SDA 8 SDQ SDA 8 SDQ SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

233 Dmin a d0 t Insets multidec -BOE MICO adius-gooving h X-off l 2 l 1 SD l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 l 2 UHM 20 UHM 20 HX SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 4 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 SD SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis egend 4

234 Dmin t Insets multidec -BOE MICO Gooving α γ a d0 h max max X-off l 2 l 1 SDS l0 Ode designation Cabide 15 Dimensions Holde 234 * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 l 2 max α γ UHM 20 UHM 20 HX SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 4 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 6 SDS SDA 8 SDS SDA 8 SDS SDA 8 SDS SDA 8 SDS SDA 8 SDS SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

235 Dmin t Insets multidec -BOE MICO Gooving and tuning α γ a d0 h max max X-off l 2 l 1 SDT l0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off h t l 0 l 2 max α γ UHM 20 UHM 20 HX SDT SDA 4 SDT SDA 4 SDT SDA 6 SDT SDA 6 SDT SDA 6 SDT SDA 8 SDT SDA 8 SDT SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis egend 4

236 Insets multidec -BOE MICO Theading (patial pofile 60 ) 60 a X-off t h l 1 d 0 l 2 l 0 SDU Pitch P Ode designation Cabide 15 Standad Dimensions Holde 236 * PEMIUM-INE 27 ISO P l 1 d 0 a X-off h t l 0 l 2 DIN13 UHM 20 UHM 20 HX SDU M1.6 M SDA 4 SDU M2 M SDA 4 SDU M3 M SDA 4 SDU M4 M SDA 4 SDU M1.6 M SDA 4 SDU M2 M SDA 4 SDU M3 M SDA 4 SDU M4 M SDA 4 SDU M5 M SDA 6 SDU M6 M SDA 6 SDU M7 M SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis 5 Application ecommendation fo numbe of passes at theading 134 egend 4

237 Insets multidec -BOE MICO Theading (full pofile metic) d 0 SDV a X-off V V 60 t h Pitch P l 1 l 0 Ode designation Cabide 15 Standad Dimensions Holde * PEMIUM-INE 27 ISO P l 1 d 0 a X-off h t l 0 V DIN13 UHM 20 UHM 20 HX SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 4 SDV M SDA 6 SDV M6/ SDA 6 SDV M SDA 6 SDV M SDA 6 SDV M6/M SDA 6 SDV M SDA 6 SDV M SDA 6 SDV M6/ SDA 6 SDV M SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis Application ecommendation fo numbe of passes at theading 134 egend 4

238 Insets multidec -BOE MICO Copy tuning (axial) SP min Dmin a X-off α l 1 β d0 SXJ l 0 Ode designation Cabide 15 Dimensions Holde 238 * PEMIUM-INE 27 D min l 1 d 0 a X-off SP min l 0 α β UHM 20 UHM 20 HX SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 4 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 6 SXJ SDA 8 SXJ SDA 8 SXJ SDA 8 SXJ SDA 8 SXJ SDA 8 SXJ SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

239 Insets multidec -BOE MICO Gooving (axial) Dmin. α d0 l2 X-off t β l 1 l 0 SXP Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 D min l 1 d 0 a X-off t l 0 α β UHM 20 UHM 20 HX SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 4 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 6 SXP SDA 8 SXP SDA 8 SXP SDA 8 SXP SDA 8 SXP SDA 8 SXP SDA 8 * eft execution and othe coatings on demand Accuacy class of Utilis Pay attention to the woking situations fo the coect selection of the combinations of tools and insets 24 Attention The goove must not be made undeneath the D min -position. egend 4

240 Insets multidec -BOE MICO Chamfeing t d 1 d 0 SDY α l 0 Ode designation Cabide 15 Dimensions Holde 240 * PEMIUM-INE 27 d 0 d 1 t l 0 α UHM 20 UHM 20 HX SDY SDA 4 SDY SDA 4 SDY SDA 4 SDY SDA 6 SDY SDA 6 SDY SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis 5 egend 4

241 Insets multidec -BOE MICO adius b β α d 1 t d 0 SDZ l 0 Ode designation Cabide 15 Dimensions Holde * PEMIUM-INE 27 d 0 d 1 b t l 0 α β UHM 20 UHM 20 HX SDZ SDA 4 SDZ SDA 4 SDZ SDA 4 SDZ SDA 6 SDZ SDA 6 SDZ SDA 6 * eft execution and othe coatings on demand Accuacy class of Utilis egend 4

242 Cutting specification multidec -BOE MICO Steel unalloyed Steel low alloyed Steel high alloyed Titanium Hadness value (HB) Categoy Machining method Cutting speeds I II III IV v c (m/min) Cutting mateial cabide UHM UHM 20 HX Stainless steel Stainless steel Aluminum Bass Hadness value (HB) Categoy Machining method Cutting speeds V VI VII VIII v c (m/min) 242 Cutting mateial cabide UHM UHM 20 HX Feed (f) and depths of cut (ap) 243 egend 4

243 Feed and depths of cut multidec -BOE MICO SDG SXG SDH SDI SXI SDY SDZ Steel unalloyed Steel low alloyed Steel high alloyed Stainless steel Titanium Aluminum Bass D (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) SDK SDM SDO SDQ SDT SXJ SXP Steel unalloyed Steel low alloyed Steel high alloyed Stainless steel Titanium Aluminum Bass D (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) f (mm) a p (mm) SD SDS Steel unalloyed Steel low alloyed Steel high alloyed Stainless steel Titanium Aluminum Bass f (mm) f (mm) f (mm) f (mm) f (mm) f (mm) f (mm) SDU SDV (Theading) Application ecommendation fo numbe of passes 134 egend 4

244 Notes 244 Attention Please note the legend 4

245 Oveview Accessoies Technical infomation 7 TOX scewdive 246 TOX toque scewdive

246 TOX Scewdive Maximum possible hadness combined with high toughness ae essential fo any high quality tool. Use of a special alloy gives ou blades exceptional toughness and elasticity even at a hadness of 58 to 60 HC. The special suface stuctue of the handle gives a fim gip even with wet and oily hands. Safe woking and a long tool life ae guaanteed with this scewdive. MSP TX Illustation Dimensions Ode designation Scew TOX TOX PUS T05 MSP TX05 M T 05 T06 MSP TX06 M T 06 T07 MSP TX07 M T 07 T08 MSP TX08 M T 08 T09 MSP TX09 M T 09 T10 MSP TX10 M T 10 T15 MSP TX15 M T 15 T20 MSP TX20 M T 20 TP06 MSP TXP06 M TP 06 TP07 MSP TXP07 M TP 07 TP08 MSP TXP08 M TP 08 TP09 MSP TXP09 M TP 09 TP10 MSP TXP10 M TP 10 TP15 MSP TXP15 M TP 15 TP20 MSP TXP20 M TP egend 4

247 TOX toque scewdive MSP TX D* Illustation Dimensions Ode designation Scew TOX TOX PUS * Peset with eplaceable blade (TOX and TOX PUS can be used with the same handle) T06 (0.6 Nm) MSP TX06 D M T 06 T07 (0.9 Nm) MSP TX07 D M T 07 T08 (1.2 Nm) MSP TX08 D M T 08 T09 (1.4 Nm) MSP TX09 D M T 09 T10 (2 Nm) MSP TX10 D M T 10 T15 (3 Nm) MSP TX15 D M T 15 T20 (3 Nm) MSP TX20 D M T 20 TP06 (0.6 Nm) MSP TXP06 D M TP 06 TP07 (0.9 Nm) MSP TXP07 D M TP 07 TP08 (1.2 Nm) MSP TXP08 D M TP 08 TP09 (1.4 Nm) MSP TXP09 D M TP 09 TP10 (2 Nm) MSP TXP10 D M TP 10 TP15 (3 Nm) MSP TXP15 D M TP 15 TP20 (3 Nm) MSP TXP20 D M TP 20 eplaceable blades MSP KTX D Illustation Dimensions Ode designation Scew TOX TOX PUS T06 (0.6 Nm) MSP KTX06 D M T 06 T07 (0.9 Nm) MSP KTX07 D M T 07 T08 (1.2 Nm) MSP KTX08 D M T 08 T09 (1.4 Nm) MSP KTX09 D M T 09 T10 (2 Nm) MSP KTX10 D M T 10 T15 (3 Nm) MSP KTX15 D M T 15 T20 (3 Nm) MSP KTX20 D M T 20 TP06 (0.6 Nm) MSP KTXP06 D M TP 06 TP07 (0.9 Nm) MSP KTXP07 D M TP 07 TP08 (1.2 Nm) MSP KTXP08 D M TP 08 TP09 (1.4 Nm) MSP KTXP09 D M TP 09 TP10 (2 Nm) MSP KTXP10 D M TP 10 TP15 (3 Nm) MSP KTXP15 D M TP 15 TP20 (3 Nm) MSP KTXP20 D M TP egend 4