VG-Cut. Complete Range of Turning Solutions METRIC. Innovative Grooving & Turning Solutions

Transcription

1 VG-Cut Complete ange of Turning Solutions METIC Innovative Grooving & Turning Solutions

2 VG-Cut Complete ange of Turning Solutions Deep Grooving, Threading, Parting Off, Boring and Face Grooving Technical Data _ Page 3 VG-Cut Inserts & _ Page 13 VG-Cut Toolholders & Page 19 The new family of VG-Cut tools by GOOVEX, provides a wider range of applications and options within the same insert pocket of Deep Grooving, Parting Off, Turning, Profiling, Boring, Face Grooving and Threading. The VG-Cut inserts also offer a variety of chip formers and carbide grades, making the VG-Cut program a distinctly versatile system. VG-Cut tools cover a wide range of Threading Standards for machining between shoulders and close to the spindle for up to shoulder depth of 10.0 mm. The VG-Cut, with its unique multifunctional geometry, minimizes inventory for the end-user in an extensive selection of applications. Modular Face Grooving Monoblock Modular NEW Blades Internal Face Grooving & Turning Parting Off Deep Grooving Turning Profiling Threading Grooving & Undercut between Shoulders & Turning 2

3 Insert, Tool and Cutting Data Selection Guide A Identify the Application B Identify the Designated Work Piece Material P Alloy Steel M Stainless Steel K Cast Iron N Non- Ferrous S Heat esistance H Hardened Marerial C D Designated Chip Former Geometry for Selected Applications Designated Carbide Grade for Desired Application page 4 VKG VPG VMG page 5 E F Selecting Insert and Tool as equired by Operation Cutting Data According to Selected Items M Stainless Steel K Non Hardened Stainless Steel Cast Ferritic 16 Hardened Austenitic Stainless Steel Cast Austenitic 18 Hardened Ferritic (short chips) Malleable Cast Iron 29 Pearlitic (long chips) Grey Cast Iron Low Tensile Strength pages pages

4 Designated Chip Former Geometry for Parting Off and Grooving Application Material Group Standard Conditions Extreme Conditions Parting Off P Alloy Steel K Cast Iron H Hardened Material GT ecommended choice for machining alloy and stainless steel. Positive rake chip former leads to low cutting forces during cutting. A multifunctional chip former for parting, grooving and turning. GP ecommended choice for machining cast iron, for interrupted cuts and for unstable applications where accuracy and overall machining stability are not clear. einforced cutting edge for parting off and grooving. Grooving M Stainless Steel N Non- Ferrous S Heat esistance P Mild Steel GM/GF ecommended choice for stainless steel. Positive sharp cutting edge decreases buildup on edge for parting off and grooving in low feeds. GT ecommended choice for machining alloy and stainless steel. Positive rake chip former leads to low cutting forces during cutting, with multifunctional chip former for parting, grooving and turning. Designated Chip Former Geometry for Turning, Profiling and Threading Application Standard Conditions Turning GT ecommended choice for machining alloy and stainless steel. Positive rake chip former leads to low cutting forces during cutting, with multifunctional chip former for parting off, grooving and turning. Profiling G ecommended choice for grooving, undercut and profiling. ound shape geometric for profiling, and positive rake chip former with multifunctional chip control. Threading S/LS Varied range of threading standards for machining between shoulders and close to the spindle. 4

5 Designated Carbide Grade for Desired Application Toughness vs. Hardness Toughness VMG M35 VMG - Very tough substrate, secured edge from chipping. PVD coated M35 for low cutting speeds. ecommended for Parting Off on stainless steel and interrupted cuts. VPG P20 VPG - Sub-micron substrate for a wide range of applications. Excellent anti-fracture resistance. PVD coated P20 for medium to high cutting speeds. ecommended for alloy and stainless steel in grooving and turning. VKG K25 VKG - Tough substrate. CVD coated K25. Excellent wear resistance in high cutting speeds. ecommended for cast iron and grooving alloy steels under stable conditions. Hardness ecommended Carbide Grade for Designated Application Application Improved Chipping esistance Improved Wear esistance Application Improved Chipping esistance Improved Wear esistance VMG M35 VPG P20 VPG P20 VKG K25 Parting Off Turning VPG P20 VKG K25 VPG P20 VKG K25 Grooving Profiling VMG M35 VPG P20 VPG P20 VKG K25 Undercut Face Turning 5

6 Technical Data ecommended Cutting Speeds Vc [m/min] Material Group Vargus No. Material Hardness Brinell HB VMG PVD M35 Carbide Grade VPG PVD P20 VKG CVD K25 Vc [m/min] for Parting Off PSteel M Stainless Steel K Cast Iron N(K) Non-Ferrous Metals S(M) Heat esistant Material H(K) Hardened Material 1 Low Carbon (C= %) Unalloyed Steel Medium Carbon (C= %) High Carbon (C= %) Non Hardened Low Alloy Steel Hardened (alloying elements 5%) Hardened High Alloy Steel Annealed (alloying elements>5%) Hardened Cast Steel Low Alloy (alloying elements <5%) High Alloy (alloying elements >5%) Stainless Steel Non Hardened Ferritic Hardened Stainless Steel Austenitic Austenitic Super Austenitic Stainless Steel Non Hardened Cast Ferritic Hardened Stainless Steel Austenitic Cast Austenitic Hardened Malleable Ferritic (short chips) Cast Iron Pearlitic (long chips) Grey Cast Iron Low Tensile Strength High Tensile Strength Nodular Sg Iron Ferritic Pearlitic Aluminium Alloys Non Aging Wrought Aged Aluminium Alloys Cast Cast & Aged Aluminium Alloys Cast Si 13-22% Copper and Brass Copper Alloys Bronze And Non Leaded Copper Annealed (iron based) High Temperature Aged (iron based) Alloys Annealed (nickel or cobalt based) Aged (nickel or cobalt based) Titanium Alloys Pure 99.5 Ti 400m α+β Alloys 1050m Hc Extra Hard Steel Hardened & Tempered Hc For Parting Off, improved chip forming and chip evacuation; reduce speed by 30%. Vc [m/min] for Boring educe speed by 30% for improved chip forming and evacuation. For gummy materials, such as stainless steel and heat resistant metals or in case of build up on edge (cold welding), increase speed by 20%. 6

7 Feed ate (f) Starting Point for Deep Grooving, Face Grooving & Parting Off f [mm/rev] 2.0 mm Insert Width f [mm/rev] 3.0 mm Insert Width GF GT GP GM GT GP Chip Former GF GT GP f [mm/rev] Chip Former GM GT GP f [mm/rev] f [mm/rev] 4.0 mm Insert Width f [mm/rev] 5.0 mm Insert Width GT GP GT GP GM Chip Former GM GT GP f [mm/rev] Chip Former GT GP f [mm/rev] f [mm/rev] 6.0 mm Insert Width GT GP Correct chip forming is essential for chip evacuation. Low feed rates with sufficient chip evacuation improve process stability and tool life. Feed rate should be increased only when improved evacuation is needed to prevent wall scratching or chip entanglement. For Parting Off, it is recommended to reduce feed rate by 30% while using / L inserts. For Parting Off, it is recommended to reduce feed rate by 50% as the insert approaches rotation center. educe feed when the insert approaches approx. 6.0 mm diameter. Chip Former GT GP f [mm/rev] For better chip evacuation in Face Grooving, creating short chips is preferable. It is therefore recommended to work in short intervals (pecking), at a maximum grooving depth of twice the insert width. Taking into consideration the workpiece material and groove diameter, it is recommended to begin the first cut at no longer than the insert s width. For internal turning, reduce feed by 25% when machining depth exceeds 3xD shank diameter. 7

8 Feed ate (f) and Depth of Cuts for Axial Turning, Profiling and Face Grooving ap [mm] mm Width GT & G 3.0 mm Width GT & G ap [mm] GT G f [mm/rev] ecommended Starting Point: GT 2.0 mm G 2.0 mm ap [mm] f [mm/rev] ap [mm] GT G GT & G 4.0 mm 4.0 mm Width GT & G ap [mm] 5.0 GT & mm G Width 5.0 mm GT & G 3.5 f [mm/rev] ecommended Starting Point: GT 3.0 mm G 3.0 mm ap [mm] f [mm/rev] GT G GT G f [mm/rev] ecommended Starting Point: GT 4.0 mm G 4.0 mm ap [mm] f [mm/rev] ap [mm] GT mm & G Width 6.0 GT mm & G f [mm/rev] ecommended Starting Point: GT 5.0 mm G 5.0 mm ap [mm] f [mm/rev] GT G f [mm/rev] ecommended Starting Point: GT 6.0 mm G 6.0 mm ap [mm] f [mm/rev]

9 Face Groove and Turn Machining ecommendations oughing: Method 1: 1. Start by face grooving close to outer diameter, followed by face turning toward the center. 2. Axial retract away from the workpiece for about 0.3 mm. 3. epeat the above cycle (points 1 & 2), each time deeper into the workpiece, with a maximum grooving depth of twice the insert width. 4. Keep about 0.4 mm of additional material on workpiece, which will be removed in the finishing operation as recommended below. 0 Dmax. 0 Dmax. 0 Dmax. (outer) Method 2: Figure A Figure B 1. Start by face grooving close to outer diameter (Figure A). Work in short intervals (pecking) at maximum grooving depth of twice the insert width. 2. Follow this by face grooving towards the center of the workpiece as required for covering the entire pocket shape (Figure B). Each additional groove width should be smaller than the insert width by approx. 0.3 mm. 3. Only the first groove (Figure A) is done in short intervals (pecking) for better chip evacuation. Other grooves can be done continuously based on recommended feeds for the application. 4. ecommended chip forming for Alloy Steel is GP. For Stainless Steel please use GT. See the following page for Finishing ecommendations. 9

10 Face Groove and Turn Machining ecommendations Finishing: 1. Start the Profiling operation from the outer diameter of the workpiece and work in. Generate the desired radius followed by the face turning operation close to the tangential point of the inner radius. 2. Start the Profiling operation from the inner diameter towards the bottom of the workpiece, generate the desired radius as needed. Selecting the Correct Face Grooving Module D max VG Cut Example: VGF-4860-T24-4C D min Wrong Support Correct Support D min D max 10

11 User Guide for Modular System Choosing the correct Holder for the application (Body + Module): * High pressure coolant system shown. Parallel ight Tools Parallel Left Tools ight Body Left Body adial Face adial Face ight Module Left Module Left Module ight Module 90 ight Tools 90 Left Tools ight Body Left Body adial Face adial Face Left Module ight Module ight Module Left Module 11

12 Technical Data ecommended Cutting Speeds Vc [m/min] for Threading Material Group Vargus No. Material Hardness Brinell HB Carbide Grade VPG PVD P20 PSteel M Stainless Steel K Cast Iron N(K) Non-Ferrous Metals S(M) Heat esistant Material H(K) Hardened Material 1 Low Carbon (C= %) Unalloyed Steel Medium Carbon (C= %) High Carbon (C= %) Non Hardened Low Alloy Steel (alloying elements 5%) Hardened Hardened High Alloy Steel Annealed (alloying elements>5%) Hardened Low Alloy (alloying elements <5%) Cast Steel 10 High Alloy (alloying elements >5%) Stainless Steel Non Hardened Ferritic Hardened Stainless Steel Austenitic Austenitic Super Austenitic Stainless Steel Non Hardened Cast Ferritic Hardened Stainless Steel Austenitic Cast Austenitic Hardened Malleable Ferritic (short chips) Cast Iron Pearlitic (long chips) Low Tensile Strength Grey Cast Iron 31 High Tensile Strength Ferritic Nodular Sg Iron 33 Pearlitic Aluminium Alloys Non Aging Wrought Aged Cast Aluminium Alloys 37 Cast & Aged Aluminium Alloys Cast Si 13-22% Copper and Brass Copper Alloys Bronze And Non Leaded Copper Annealed (iron based) High Temperature Aged (iron based) Alloys Annealed (nickel or cobalt based) Aged (nickel or cobalt based) Pure 99.5 Ti 400m Titanium Alloys 24 α+β Alloys 1050m Hc Extra Hard Steel Hardened & Tempered Hc

13 VG-Cut Inserts Parting Off & Deep Grooving - Double Sided Inserts ( mm) Parting Off & Deep Grooving - Single Sided Inserts ( mm) Turning & Profiling ( mm) Threading (3.0 mm) VG-Cut Inserts VG D GP VPG Line Name 2 Number of Cutting Corners 3 Insert Width 4 Corner adius Deep Grooving & Parting Off D - Double S - Single 2.0, 3.0, 4.0, 5.0, 6.0 mm 0.20 mm Threading Standard 5 H or LH (for Grooving) 5 H or LH (for Threading) 6 Top ake Geometry 7 Carbide Grade 4, 6, 15 Deg. H or LH None - Neutral H Helix LH Helix GP, GM, GT, G S - Close to right shoulder LS - Close to left shoulder VPG, VMG, VKG 13

14 L ref Parting Off & Deep Grooving - Double Sided Inserts mm Width W K L ref ight Hand L ref L ref Neutral 2 Corners (VGD) t max W W K Left Hand Positive cutting edge, for small parts, thin wall pipes & soft materials Positive sharp cutting edge, for low feed & speed Multipurpose geometry, for general use ound multipurpose geometry for profiling & undercut GF GM GT G Pocket Size Feed ange (mm/rev) Grade W ±0.04 t max K L ref VPG VMG VKG 2 VGD GF VGD GF VGD L-GF VGD GF VGD L-GF VGD GM VGD GM VGD GM VGD L-GM VGD GM VGD GT VGD GT VGD GT VGD GT VGD GT VGD GT VGD G VGD G VGD G VGD G Blunt reinforced cutting edge for high feed & speed GP In stock Available upon request 2 VGD GP VGD GP VGD GP VGD L-GP VGD GP VGD GP VGD L-GP VGD GP VGD GP

15 Parting Off & Deep Grooving - Single Sided Inserts mm Width K L ref ight Hand L ref Neutral 1 Corner (VGS) W W K Left Hand Positive cutting edge, for small parts, thin wall pipes & soft materials Positive sharp cutting edge, for low feed & speed GF GM Pocket Size Feed ange (mm/rev) Grade W ±0.04 t max K L ref VPG VMG VKG 2 VGS GF VGS L-GF VGS GM VGS GM VGS L-GM VGS GM VGS GM VGS L-GM Blunt reinforced cutting edge for high feed & speed GP In stock Available upon request 3 VGS GP VGS GP VGS L-GP VGS GP VGS GP VGS L-GP

16 Turning & Profiling mm Width GT G L ref L ref t max t max W W Positive rake chip former with multifunctional chip control. Low cutting forces during cutting. ound shape geometric design for profiling. Positive rake chip former and multifunctional chip control for undercut and profiling. GT G Pocket Size In stock Available upon request Feed ange (mm/rev) Grade W ±0.05 t max K L ref VPG VMG VKG 2 VGD GT VGD GT VGD GT VGD GT VGD GT VGD GT VGD G VGD G VGD G VGD G

17 Threading 3.0 mm Width S/LS Varied range of threading standards for machining between shoulders and close to spindle. L ref Y Y W W S Full Profile LS Full Profile To be used with Monoblock tools (VGE..T08 or T12) or reinforced monoblock tools (PH) only. Y W Partial Profile Partial Profile Internal External Pocket Size No. of Helix Grade Passes W ref Pitch mm Y L ref Deg VPG Min. Thread Diameter 3 VGD3.0A60H Partial Profile A60 In stock Available upon request Partial Profile Internal External Pocket Size No. of Helix Grade Passes W ref Pitch TPI Y L ref Deg VPG Min. Thread Diameter 3 VGD3.0A55H Partial Profile A55 In stock Available upon request ISO Metric h 1/4P Internal 60 1/8P External Defined by: 262 (DIN 13) Tolerance class: 6H Pocket Size In stock Available upon request No. of Helix Grade Passes W ref Pitch mm h min Y L ref Deg VPG Min. Thread Diameter 3 VGD3.0ISO0.50H-S/LS M3x0.5 3 VGD3.0ISO0.75H-S/LS M5x VGD3.0ISO1.00H-S/LS M6x1 3 VGD3.0ISO1.25H-S/LS M8x VGD3.0ISO1.50H-S/LS M10x1.5 Coarse 3 VGD3.0ISO1.75H-S/LS M12x1.75 Coarse 3 VGD3.0ISO2.00H-S/LS M16x2.0 Coarse 3 VGD3.0ISO2.50H-S/LS M18x2.5 Coarse 17

18 Threading 3.0 mm Width (con't) S/LS Varied range of threading standards for machining between shoulders and close to spindle. L ref Y Y W W S Full Profile LS Full Profile Y To be used with Monoblock tools (VGE..T08 or T12) or reinforced monoblock tools (PH) only. W American UN h 1/4P Internal 60 1/8P External Defined by: ANSI B1.1:74 Tolerance class: 2B Pocket Size No. of Helix Grade Passes W ref Pitch TPI h min Y L ref Deg VPG Min. Thread Diameter 3 VGD3.0UN32H-S/LS /32"-32 UNC 3 VGD3.0UN28H-S/LS /16"-28 UNC 3 VGD3.0UN24H-S/LS /32"-24 UNC 3 VGD3.0UN20H-S/LS /4"-20 UNC 3 VGD3.0UN18H-S/LS /16"-18 UNC VGD3.0UN16H-S/LS /8"-16 UNC 3 VGD3.0UN14H-S /16"-14 UNC 3 VGD3.0UN14H-LS /16"-14 UNC 3 VGD3.0UN12H-S /16"-14 UNC 3 VGD3.0UN12H-LS /16"-14 UNC In stock Available upon request LH Helix threads available upon request Whitworth Pocket Size No. of Helix Grade Passes W ref Pitch TPI h min Y L ref Deg VPG Min. Thread Diameter 0.137P Internal 55 3 VGD3.0W19H-S/LS /2"-19BSW h 3 VGD3.0W14H-S/LS /2"-14BSW 0.137P External 3 VGD3.0W11H/LH /8"-11BSW In stock Available upon request Defined by: B.S.84:1956, LH Helix threads available upon request DIN 259, ISO228/1:1982 Tolerance class: Medium class A NPT Internal Pocket Size No. of Helix Grade Passes W ref Pitch TPI h min Y L ref Deg VPG Min. Thread Diameter h 3 VGD3.0NPT18H-S/LS /4"-18NPT 3 VGD3.0NPT14H-S/LS /2"-14NPT External 3 VGD3.0NPT11.5H-S/LS "-11.5NPT In stock Available upon request Defined by: USAS LH Helix threads available upon request B2.1:1968 Tolerance class: Standard NPT 18

19 VG-Cut Tools External Monoblock Tools einforced External Monoblock Tools Blades for Grooving & Parting Off Blade Holders adial Modules adial Bodies adial Modules with HPC Face Grooving Modules with HPC Modular Bodies with HPC Internal Grooving & Turning Holders VG-Cut Monoblock Toolholders VG 1 Blades VG 1 Modules VG 1 E 2 P 2 A 2 Holders/Bodies VB 1 A 6 Tools D 8 T T12 5 C C 11 PH 10 S 8 C 11 C 11 1 Tools/Holders VG - Deep Grooving & Parting Off VB - Holders 2 Type E - External tool P - Universal blade W - einforced blade A - adial module F - Face module 3 For External Holders Shank Size 4 Pocket Size 2, 3, 4, 5, 6 5 Depth of Cut 6 Holders 7 Blade Height 8 Number of Pockets T12 - Limit Depth of Cut 12 mm A - Universal 20, 25, 26, 32 00, 45, 90 Approach angle D - Double S - Single 9 H or LH - H L - LH None - Neutral Internal Holders 10 PH PH - einforced blade structure 11 Coolant C - Coolant VG 1 I C 6 1 Tools/Holders VG - Grooving & Turning 2 Type I - Internal 3 H or LH - H L - LH 4 Shank Diameter Shank Dia. - D min. - Ex Pocket Size 2, 3, 4, 5, 6 6 Coolant C - Coolant 19

20 External Monoblock Tools Grooving, Parting Off, Turning & Threading L2 H H1 a L1 H2 PW B F t max * ight hand shown Spare Parts H/LH PW t max HXB H1 F L1 L2 a H2 Cylindrical Screw* Key VGE/L1616-2T12 16x SM4.0x16-T20 12 VGE/L2020-2T x SM4.0x18-T20 K6T VGE/L2525-2T x SM4.0x18-T20 VGE/L1212-3T x SM3.5x14-T15 KT15 VGE/L1616-3T x VGE/L1616-3T x VGE/L2020-3T x VGE/L2020-3T x VGE/L2020-3T x SM4.0x18-T20 K6T VGE/L2525-3T x VGE/L2525-3T x VGE/L2525-3T x VGE/L1616-4T x VGE/L2020-4T x VGE/L2525-4T x VGE/L2525-4T x SM4.0x18-T20 K6T VGE/L2525-4T x VGE/L3232-4T x VGE/L2525-5T22** 25x VGE/L3232-5T22** 32x SM6.0x20 K5H VGE/L2525-6T24** 25x VGE/L3232-6T24** 32x SM6.0x20 K5H * Tightening Torque: T15 screws - 5 Nm max, T20 screws - 7 Nm max ** Mounting and eplacing Inserts for 5mm & 6mm Monoblock Toolholders: Unlock the top screw using the key provided. Place the same key in the pocket. Turn and hold the key to loosen the pocket and remove the insert. Place the new insert in the pocket Now remove the key from the pocket and secure the insert by firmly locking the top screw. 20

21 einforced Monoblock Tools Parting, Grooving & Threading L2 D max H H1 a L1 PW B F * ight hand shown Spare Parts H/LH PW D max HXB H1 F L1 L2 a Cylindrical Screw* Key VGE/L1212-2T12PH 26 12x VGE/L1616-2T12PH 26 16x VGE/L1616-2T21PH 42 16x VGE/L2020-2T12PH 26 20x VGE/L2020-2T21PH 42 20x VGE/L2525-2T21PH 42 25x SCM4x14-T15 KT-15 VGE/L1616-3T12PH 26 16x VGE/L2020-3T12PH 26 20x VGE/L2020-3T21PH x VGE/L2525-3T12PH 26 25x VGE/L2525-3T21PH 42 25x * Tightening Torque 5 Nm max. 21

22 Blades for Grooving & Parting Off NEW D max PW B H1 L1 a D max PW B H1 L1 a Spare Parts B PW D max* H1 L1 a Key Key VGP26-2D VGP32-2D VGP26-3D Sealing Cap - - VGP26-3DC NEW VP-3** M4x3-15IP WS-15IP VGP32-3D VGP32-3DC NEW M4x3-15IP WS-15IP VGP35-3S VGP32-4D VP-4** VGP32-4DC NEW M4x3-15IP WS-15IP VGP32-5D VGP32-6D Blades marked with C are offered with High Pressure Coolant. * D max figures presented are for single sided insert (VGS). ** Not included. Please order separately. einforced Blades for Grooving & Parting Off VP-G** - - PW D max H1 B a A L1 Spare Parts H/LH B PW D max* H1 L1 A a Key VGW/L26-2S VGW/L26-3S * D max figures presented are for single sided insert (VGS). ** Not included. Please order separately. VP-3** 22

23 Blade Holders Coolant Inlet G1/8" H L b L1 B L2 Spare Parts b H B L L1 L2 Clamping Screw Key Plug Screw Indent Plug Screw VBA M6x1.0x25 K5 Plug G1/8" Plug M6x8 VBA

24 Modules for Grooving, Parting Off & Turning D max H1 L1 F PW a *ight hand shown H/LH PW D max H1 F L1 a VGA/L20T25-2S VGA/L20T25-3S VGA/L20T25-4S VGA/L25T25-2S VGA/L25T25-3S VGA/L25T25-4S adial (0o-90o) Module Limitations Mounting and eplacing Modules: D max t max o (Undercut) Module Limitations Pocket Width PW Square Groove as max ound Groove ar max D min Square Groove D min as ar ound Groove D min 1. Clamp the module using screws 1, 2 and First clamp the module to the body with screw no. 1, followed by screw no Finally, clamp the insert to the holder with screw no

25 Modular Bodies for Grooving, Parting Off & Turning H2 H1 H L2 L1 F B1 B * ight hand shown Spare Parts H/LH H/H1 B B1 H2 F L1 L2 Conical Screw* Key VBM/L SM4x14 T15 TK-T15 VBM/L SM5x18 T20 TK-T20 H2 H1 H L2 L1 B * ight hand shown 90 Spare Parts H/LH H/H1 B H2 L1 L2 Conical Screw* Key VBM/L SM4x14 T15 TK-T15 VBM/L SM5x18 T20 TK-T20 For 90º ight-hand Tool: Use right-hand body with left-hand module. H2 H1 H * Left hand shown F F L2 L2 B1 B1 L1 Spare L1 Parts B B H/LH H/H1 B B1 H2 L1 L2 F Conical Screw* Key VBM/L VBM/L For 45º ight-hand Tool: Use right-hand body with left-hand module. * Tightening Torque: T15 screw - 5 Nm max, T20 screws - 7 Nm max. SM4x10.5 T15 SM4x14 T15 SM5x13.5 T20 SM5x18 T20 TK-T15 TK-T20 25

26 adial Grooving Modules with High Pressure Coolant Thru H1 F PW t max a *ight hand shown Spare Parts H/LH PW t max H1 F L1 a Screw* Key VGA/L-T09-2C VGA/L-T18-2C VGA/L-T10-3C VGA/L-T20-3C VGA/L-T12-4C VGA/L-T24-4C VGA/L-T15-5C VGA/L-T30-5C 5 30** VGA/L-T20-6C VGA/L-T40-6C 6 40** * Tightening Torque 7 Nm max. ** T max figures presented for single sided inserts (VGS). SM5x16 K4H Mounting and eplacing Inserts for adial and Face Grooving Modules with High Pressure Coolant Thru: Unlock the top screw using the key provided. Place the same key in the pocket. Turn and hold the key to loosen the pocket and remove the insert. Place the new insert in the pocket Now remove the key from the pocket and secure the insert by firmly locking the top screw. 26

27 Face Grooving Modules with High Pressure Coolant Thru L1 D min D max F PW t max Workpiece rotation for Face Grooving: - Clockwise for left-hand application - Counter-clockwise for right-hand application * ight hand shown Spare Parts H/LH PW t max D min D max F L1 Screw* Key VGF/L-2530-T10-3C VGF/L-3038-T10-3C VGF/L-3848-T10-3C VGF/L-4860-T10-3C VGF/L-6075-T10-3C VGF/L T10-3C VGF/L T10-3C VGF/L-6075-T20-3C VGF/L T20-3C VGF/L T20-3C VGF/L-3048-T12-4C VGF/L-4860-T12-4C VGF/L-6075-T12-4C VGF/L T12-4C VGF/L T12-4C SM5x16 K4H VGF/L-150->-T12-4C 150 > VGF/L-3048-T24-4C VG/LF-4860-T24-4C VGF/L-6075-T24-4C VGF/L T24-4C VGF/L T24-4C VGF/L-150->-T24-4C 150 >150 VGF/L-4255-T22-5C VGF/L-5575-T22-5C VGF/L T22-5C VGF/L T22-5C VGF/L-200 ->-T22-5C 200 >200 VGF/L T45-5C VGF/L T45-5C VGF/L-450->-T45-5C 450 >450 * Tightening Torque 7 Nm max. 27

28 Face Grooving Modules with High Pressure Coolant Thru (con't) L1 D min D max F PW t max Workpiece rotation for Face Grooving: - Clockwise for left-hand application - Counter-clockwise for right-hand application * ight hand shown Spare Parts H/LH PW t max D min D max F L1 Screw* Key VGF/L-4255-T22-6C VGF/L-5575-T22-6C VGF/L T22-6C VGF/L T22-6C VGF/L-200 ->-T22-6C 200 > SM5x16 K4H VGF/L T45-6C VGF/L T45-6C VGF-450->-T45-6C 450 >450 * Tightening Torque 7 Nm max. 28

29 Modular Bodies with High Pressure Coolant Thru for Grooving, Face Grooving, Parting Off and Turning L2 Coolant Inlet G1/8" H2 H1 H h L1 F B * ight hand shown * ight hand assembly Spare Parts H/H1 B H2 h F L1 L2 Clamping Screw Key Plug Screw VBM/L C VBM/L C SM8x25 K6H G1/8" VBM/L C L2 Coolant Inlet G1/8" H2 H1 H h L1 90 B * ight hand shown * ight hand assembly Spare Parts H/LH H/H1 B H2 h L1 L2 Clamping Screw Key Plug Screw VBM/L C VBM/L C SM8x25 K6H G1/8" VBM/L C

30 Internal Grooving & Turning L 1 L F d PW t max D min *ight hand shown Spare Parts H/LH PW t max L1 D min d F L Screw* Key VGI/L C VGI/L C SM5x12 VGI/L C VGI/L C SM5x16 VGI/L C SM5x20 VGI/L C SM5x12 K4H VGI/L C SM5x16 VGI/L C VGI C SM5x20 VGI C SM5x25 * Tightening Torque 7 Nm max. 30

31 NEW GOOVEX Main Catalog PESENTING: The NEW GOOVEX Main Catalog! One comprehensive GOOVEX catalog for grooving and turning solutions. The GOOVEX Main Catalog features all the latest tools and products including: External Machining VG-Cut - Deep Grooving, Threading, Turning, Parting Off & Face Grooving Applications GrooVical - Precise Grooving & Turning Applications Internal Machining VG-Cut - Internal Grooving & Turning Applications GrooVical - Precise Grooving & Turning Applications Mini-V - Precise Turning, Grooving, Threading & Face Grooving microscope - Precise Turning, Grooving, Threading & Face Grooving For more details visit

32 VG-Cut Complete ange of Turning Solutions Innovative Grooving & Turning Solutions VAGUS Ltd METIC EE 06/2018 EDITION 09