T-Clamp Ultra & T-Clamp Ultra Plus

T-Clamp Ultra & T-Clamp Ultra Plus FEATURE ADVANTAGE T-Clamp ULTRA T-Clamp ULTRA PLUS All Inserts fits in Holders, Blades & Bars Reduce Costs Turning, Profiling, Grooving & Cut Off ID Turning & Grooving Face Turning & Grooving Undercutting Excellent Chip Control Precision Insert Tolerances Standard Inserts for Aluminum Pressed to size ceramic insert for Turning & Grooving Less Tools Required versus ISO Insert Process Multiple Carbide Grades Unique Cam Operated Insert Change on Cut-Off Blade Superior Insert Clamping Stability Comprehensive User and Application Guide Available Inch and Metric Single Ended Insert for Deep Grooving Applications Single Ended Insert Double-Ended Insert Tailor Made Inserts for Unique Part Designs Insert Fits Competitor Insert Pocket Performance Guaranteed! A Complete System A Complete System A Complete System A Complete System Safe, Efficient Chip Disposal. Chip Doesn t mark part Maintains closer part tolerances & Reduces scrap Reduces Chip Welding, Cutting edge build-up High Speed Machining Reduces Cycle Time up to 50% Best Tool Life & Insert Edge Strength Fast Insert change without machine offset & fear of insert moving Insert will not move in holder especially during side cutting and profiling Eliminates confusion choosing correct Speeds&Feeds for Material&Application Can use same insert World wide Depth of Part-off or Groove not limited to insert length Expands Deep Grooving and Cut-Off Capacity Reduced per edge insert cost Full Service New holders not required Satisfaction Check and compare your present sources- Seco, Sandvik, Valenite, Iscar Only T- C l a mp U l t r a & T-Clamp Ultra Plus provides All the Advantages for M a x i m u m P r o d u c t i v i t y

ICON SYSTEM Insert Designaton System Inserts for Cut-off and Grooving Inserts for Precision Turning and Grooving Blade & Toolholder Designation System Blades for Cut-off and Grooving Toolholers for Cut-off and Grooving Toolholers for Turning and Grooving Toolholers for ID Turning and Grooving SLOTTING CUTTERS A 1 A 2~A A 5~A 8 A 9 A 10 A 11 A 12 A 13 A 1~A 15 Insert Designaton System Inserts for Cut-off and Grooving Inserts for Pressed Turning and Grooving Inserts for Pression Turning and Grooving Inserts for Pressed Turning and Grooving Inserts for Precision Internal Turning and Grooving Inserts for Pressed Turning and Grooving Inserts for Aluminum Wheel machining (External and Internal) Blade & Toolholder Designation System Blades for Cut-off and Grooving Blocks for Cut-off and Grooving Toolholers for Cut-off and Grooving Toolholers for Turning and Grooving Toolholers for Face and External Grooving Toolholers for Deep Face Turning and Grooving Toolholers for External Undercutting Toolholers for ID Turning and Grooving Toolholers for Internal Undercutting Aluminum Wheel machining (External and Internal) B 17 B 18~B 22 B 23 B 2~B 27 B 28 B 29~B 30 B 31 B 32 B 33 B 3~B 35 B 36~B 37 B 38 B 39~B 1 B 2~B 3 B ~B 6 B 7 B 8 B 9 B 50 Overview of T-ClampUltra&T-Clamp Ultra Plus Applications - Cut-Off and Grooving - Turning and Grooving - Face Machining - Slotting Cutters Grades Failure Modes C 51~C 52 C 53~C 60 C 61~C 71 C 72~C 7 C 75~C 76 C 77~C 78 C 79

Reduced cost by Advanced Solutions in Parting-off & Grooving Application

EXAMPLE OF APPLICATIONS PA R T I N G G R O O V I N G TURNING & GROOVING P R O F I L I N G FACE GROOVING FACE TURNING & GROOVING U N D E R C U T T I N G INTERNAL GROOVING INTERNAL PROFILING INTERNAL TURNING & UNDERCUTTING ALUMINIUM WHEEL M A C H I N I N G SLOTTING

INSERT DESIGNATION SYSTEM TI M C 1. 6 6 R T T 7 2 0 0 TaeguTec Insert M:Tolerance W=±.00 P :Tolerance W=±.0008 CHIPBREAKER TYPE C:For general purpose cut off and grooving J :For precision cut off and grooving with short chips, and positive cutting edge all over V:For precision grooving and turning/profiling with various widths, radii, and shapes. WIDTH Insert W width.xxx = inch x.xx = Metric LEAD ANGLE 6=6 Void=0 CUTTING DIRECTION R:Right Hand L:Left Hand N:Neutral CARBIDE GRADE CVD Coated :TT7200 :TT5100 Uncoated :K10 :P0A PVD Coated :TT6030 :TT7220 CUT OFF & GROOVING TURNING & GROOVING TI P V. 0 9 0 E. 0 0 7 T T 5 1 0 0 TaeguTec Insert M:Tolerance W=±.00 P :Tolerance W=±.0008 CHIPBREAKER TYPE C:For general purpose cut off and grooving J :For precision cut off and grooving with short chips, and positive cutting edge all over V:For precision grooving and turning/profiling with various widths, radii, and shapes. WIDTH Insert W width.xxx=inch x.xx=metric CUTTING EDGE Void-UP Sharp (or minimum coating hone) E- Honed CUTTING END SHAPE Corner Radius or 1/2 W Full Radius.xxx=inch x.xx=metric CARBIDE GRADE CVD Coated :TT7200 :TT5100 Uncoated :K10 :P0A PVD Coated :TT6030 :TT7220 1

Cut Off and Grooving INSERTS T I M C with C-type Chipbreakers Neutral Left-hand Right-hand New TIMC 1.6 TIMC 1.6 6L TIMC 1.6 6R TIMC 2 TIMC 2 6L TIMC 2 6R TIMC 2. TIMC 2. 6L TIMC 2. 6R TIMC 3 TIMC 3 6L TIMC 3 6R O l d VIMC 1.6 VIMC 1.6 6L VIMC 1.6 6R VIMC 2 VIMC 2 6L VIMC 2 6R VIMC 2. VIMC 2. 6L VIMC 2. 6R VIMC 3 VIMC 3 6L VIMC 3 6R Insert Seat Size 1 1 1 2 2 2 2 2 2 W±. 0 0 W± 0. 1 K R ( d e g r e e s ). 063. 006 1. 6 0 0. 16. 063. 006 1. 6 6 0. 16. 063 1. 6 6. 006 0. 16. 087 2. 2 0. 008 0. 20. 087. 008 2. 2 6 0. 20. 087. 008 2. 2 6 0. 20. 09. 008 2. 0 0. 20. 09. 008 2. 6 0. 20. 09. 008 2. 6 0. 20. 122. 008 3. 1 0 0. 20. 122. 008 3. 1 6 0. 20. 122 6. 008 3. 1 0. 20 I S O N e w O l d G r a d e s K P P M K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 T T 8020 V C 1 2 1 V C 9 0 2 V C 1 3 5 V C 9 0 5 S V 2 2 1 S V 2 3 1 V C 9 2 5 Ordering example : 100 pcs. TIMC 2 TT7200 :Stock :Tailor Made 2

Cut Off and Grooving INSERTS T I M C with C-type Chipbreakers Neutral Left-hand Right-hand New TIMC TIMC 6L TIMC 6R TIMC.8 TIMC.8 6L TIMC.8 6R TIMC 5 TIMC 5 6L TIMC 5 6R TIMC 6 TIMC 6 6L TIMC 6 6R O l d VIMC VIMC 6L VIMC 6R VIMC.8 VIMC.8 6L VIMC.86R VIMC 5 VIMC 5 6L VIMC 5 6R VIMC 6 VIMC 6 6L VIMC 6 6R Insert Seat Size 6 6 6 W±. 0 0 W± 0. 1 K R ( d e g r e e s ). 161. 010. 1 0 0. 25. 161. 010. 1 6 0. 25. 161. 010. 1 6 0. 25. 189. 011. 8 0 0. 28. 189 6. 011. 8 0. 28. 189. 8 6. 011 0. 28. 200 5. 1 0. 012 0. 30. 200. 012 5. 1 6 0. 30. 200. 012 5. 1 6 0. 30. 250. 01 6. 0 0. 35. 250 6. 6. 01 0. 35. 250 6. 6. 01 0. 35 I S O N e w O l d G r a d e s K P P M K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 T T 8020 V C 1 2 1 V C 9 0 2 V C 1 3 5 V C 9 0 5 S V 2 2 1 S V 2 3 1 V C 9 2 5 Ordering example : 100 pcs. TIMC 5 TT7200 :Stock :Tailor Made 3

Cut Off and Grooving INSERTS T I M J with J-type Chipbreakers Neutral Left-hand Right-hand New TIMJ 2 TIMJ 2 6L TIMJ 2 6R TIMJ 2. TIMJ 2. 6L TIMJ 2. 6R TIMJ 3 TIMJ 3 6L TIMJ 3 6R TIMJ TIMJ 6L TIMJ 6R TIMJ.8 TIMJ.8 6L TIMJ.8 6R TIMJ 5 TIMJ 5 6L TIMJ 5 6R VIMJ 2 Old VIMJ 2 6L VIMJ 2 6R VIMJ 2. VIMJ 2. 6L VIMJ 2. 6R VIMJ 3 VIMJ 3 6L VIMJ 3 6R VIMJ VIMJ 6L VIMJ 6R VIMJ.8 VIMJ.8 6L VIMJ.8 6R VIMJ 5 VIMJ 5 6L VIMJ 5 6R Insert Seat Size Ordering example : 100 pcs. TIMJ TT5100 2 2 2 2 2 2 W±. 0 0 W±0. 1 K R ( d e g r e e s ). 087 2. 2 0. 008 0. 20. 087 2. 2 6. 008 0. 20. 087 2. 2 6. 008 0. 20. 09 2. 0. 008 0. 20. 09 2. 6. 008 0. 20. 09 2. 6. 008 0. 20. 122 3. 1 0. 008 0. 20. 122 3. 1 6. 008 0. 20. 122 3. 1 6. 008 0. 20. 161. 1 0. 010 0. 25. 161. 1 6. 010 0. 25. 161. 1 6. 010 0. 25. 189. 8 0. 011 0. 28. 189. 8 6. 011 0. 28. 189. 8 6. 011 0. 28. 200 5. 1 0. 012 0. 30. 200 5. 1 6. 012 0. 30. 200 5. 1 6. 012 0. 30 I S O N e w O l d G r a d e s K P PM K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 T T 8020 V C 121 V C 902 V C 135 V C 905 S V 221 S V 231 V C 925 :Stock :Tailor Made

INSERTS Precision Turning and Grooving T I P V with V-type Chipbreakers R=1/2 W for full radius inserts New Old Insert Seat Size W±. 0 0 0 8 W±0. 0 2 R I S O N e w O l d G r a d e s K P PM K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 V C 121 V C 902 V C 135 V C 905 S V 221 S V 231 TIPV.090E.007 VIPV.090E.007 2.090. 007 2.29 0. 18 TIPV.130E.007 VIPV.130E.007. 130. 007 3.30 0. 18 TIPV.170E.015 VIPV.170E.015.170. 015.32 0. 38 TIPV.210E.02 VIPV.210E.02.210. 02 5.33 0. 61 TIPV.255E.02 VIPV.255E.02 6.255. 02 6.8 0. 61 TIPV.130E.065 VIPV.130E.065.130. 065 3.30 1. 65 TIPV.170E.085 VIPV.170E.085.170. 085.32 2. 16 TIPV.210E.105 VIPV.210E.105.210. 105 5.33 2. 67 TIPV.255E.127 VIPV.255E.127 6.255. 127 6.8 3. 23 Ordering example : 100 pcs. TIPV.210E.02 TT5100 :Stock :Tailor Made 5

INSERTS Precision Turning and Grooving T I P V with V-type Chipbreakers R=1/2 W for full radius inserts New Old Insert Seat Size W±. 0 0 0 8 W±0. 0 2 R I S O N e w O l d G r a d e s K P PM K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 V C 121 V C 902 V C 135 V C 905 S V 221 S V 231 TIPV 3.00E 0.0 VIPV 3.00E 0.0. 118. 016 3. 00 0. 0 TIPV.00E 0.0 VIPV.00E 0.0. 157. 016. 00 0. 0 TIPV.50E 0.0 VIPV.50E 0.0. 177. 016. 50 0. 0 TIPV 5.00E 0.0 VIPV 5.00E 0.0. 197. 016 5. 00 0. 0 TIPV 6.00E 0.0 VIPV 6.00E 0.0. 236. 016 6. 00 0. 0 TIPV 3.00E 1.50 VIPV 3.00E 1.50. 118. 059 3. 00 1. 50 TIPV.00E 2.00 VIPV.00E 2.00. 157. 079. 00 2. 00 TIPV 5.00E 2.50 VIPV 5.00E 2.50. 197. 098 5. 00 2. 50 TIPV 6.00E 3.00 VIPV 6.00E 3.00 6. 236. 118 6. 00 3. 00 Ordering example : 100 pcs. TIPV 3.00E 0.0 TT5100 :Stock :Tailor Made 6

INSERTS Precision Turning and Grooving T I P V with V-type Chipbreakers New TIPV.078.007 TIPV.088.007 TIPV.09.007 TIPV.097.013 TIPV.105.007 TIPV.110.013 TIPV.122.007 TIPV.125.007 TIPV.12.013 TIPV.156.007 TIPV.178.007 TIPV.185.022 TIPV.189.022 TIPV.213.007 TIPV.219.022 TIPV.250.022 Old VIPV.078.007 VIPV.088.007 VIPV.09.007 VIPV.097.013 VIPV.105.007 VIPV.110.013 VIPV.122.007 VIPV.125.007 VIPV.12.013 VIPV.156.007 VIPV.178.007 VIPV.185.022 VIPV.189.022 VIPV.213.007 VIPV.219.022 VIPV.250.022 Insert Seat Size 2 2 2 2 6 6 W±. 0 0 0 8 W±0. 0 2. 0 7 8 1. 9 8. 0 8 8 2. 2. 0 9 2. 3 9. 0 9 7 2. 6. 1 0 5 2. 6 7. 1 1 0 2. 7 9. 1 2 2 3. 1 0. 1 2 5 3. 1 8. 1 2 3. 6 1. 1 5 6 3. 9 6. 1 7 8. 5 2. 1 8 5. 7 0. 1 8 9. 8 0. 2 1 3 5. 1. 2 1 9 5. 5 6. 2 5 0 6. 3 5 R. 0 0 7 0. 1 8. 0 0 7 0. 1 8. 0 0 7 0. 1 8. 0 1 3 0. 3 3. 0 0 7 0. 1 8. 0 1 3 0. 3 3. 0 0 7 0. 1 8. 0 0 7 0. 1 8. 0 1 3 0. 3 3. 0 0 7 0. 1 8. 0 0 7 0. 1 8. 0 2 2 0. 5 6. 0 2 2 0. 5 6. 0 0 7 0. 1 8. 0 2 2 0. 5 6. 0 2 2 0. 5 6 I S O N e w O l d G r a d e s K P PM K 10 T T 6030 P 0 A T T 7220 T T 7200 T T 5100 V C 121 V C 902 V C 135 V C 905 S V 221 S V 231 Ordering example : 100 pcs. TIPV.105.007 TT5100 :Stock :Tailor Made 7

INSERTS Precision Turning and Grooving T I P V with V-type Chipbreakers New TIPV 1.85 0.10 TIPV 2.00 0.20 TIPV 2.15 0.15 TIPV 2.65 0.15 TIPV 3.00 0.20 TIPV 3.18 0.20 TIPV.00 0.20 TIPV.15 0.15 TIPV 5.00 0.20 TIPV 5.15 0.15 TIPV 6.00 0.20 Old VIPV 1.85 0.10 VIPV 2.00 0.20 VIPV 2.15 0.15 VIPV 2.65 0.15 VIPV 3.00 0.20 VIPV 3.18 0.20 VIPV.00 0.20 VIPV.15 0.15 VIPV 5.00 0.20 VIPV 5.15 0.15 VIPV 6.00 0.20 Insert Seat Size 2 2 2 6 W±. 0 0 0 8 W±0. 0 2. 0 7 3 1. 8 5. 0 7 9 2. 0 0. 0 8 5 2. 1 5. 1 0 2. 6 5. 1 1 8 3. 0 0. 1 2 5 3. 1 8. 1 5 7. 0 0. 1 6 3. 1 5. 1 9 7 5. 0 0. 2 0 3 5. 1 5. 2 3 6 6. 0 0 R. 0 0 0. 1 0. 0 0 8 0. 2 0. 0 0 6 0. 1 5. 0 0 6 0. 1 5. 0 0 8 0. 2 0. 0 0 8 0. 2 0. 0 0 8 0. 2 0. 0 0 6 0. 1 5. 0 0 8 0. 2 0. 0 0 6 0. 1 5. 0 0 8 0. 2 0 I S O N e w O l d G r a d e s K P PM K 10 T T 6030 P 0 A T T 7220 T T 7200 T T510 0 V C 121 V C 902 V C 135 V C 905 S V 221 S V 231 Ordering example : 100 pcs. TIPV 2.15 0.15 TT5100 :Stock :Tailor Made 8

BLADE & TOOLHOLDER DESIGNATION SYSTEM HOLDER / BLOCK TYPE TH TTB - TaeguTec holder (bar) - TaeguTec tool block METHOD OF RETAINING INSERT SHANK SIZE HAND OF CUT TTBN - TaeguTec tool block Screw clamp blade locking and screw lock retention turrets only 0-Wedge clamping Inch in 1/16 s Metric in mm C-Coolant Bar TTBU - TaeguTec tool block Screw and clamp wedge blade locking and universal wedge lock or screw lock retention turrets 1-Screw clamping T H 1 0 1 26 HAND OF HOLDER TOOL STYLE APPLICATION NOMINAL WIDTH OF CUT R=Right Hand 1. Blade (Double - Ended) 1=External O.D. In millimeters or inches L=Left Hand Blank=Double End Blade 2. Integral Tool Holder 9=Internal I.D.(Bore) R L 3. Blade (Single - Ended) 6. Boring Bar I.D.(Bore) 9. Manchester Replacement Blade 9

Cut Off and Grooving BLADES T H 1 0 1 Use Insert TIMC : S t y l e TIMJ : TIPV : p a g e p a g e p a g e New Old Insert Seat Size W R a n g e B L Dm a x H A N M (inch) (inch) (inch) (inch) (inch) (inch) (mm) (mm) (mm) (mm) (mm) ( d e g r e e s ) Insert Extractor TH101 19 1 TH101 19 2 TH101 26 1 TH101 26 2 TH101 26 3 TH101 26 TH101 26 5 TH101 32 1 TH101 32 2 TH101 32 3 TH101 32 TH101 32 5 TH101 32 6 VH101 19 1 VH101 19 2 VH101 26 1 VH101 26 2 VH101 26 3 VH101 26 VH101 26 5 VH101 32 1 VH101 32 2 VH101 32 3 VH101 32 VH101 32 5 VH101 32 6 1 2 1 2 1 2 6.053 -.098 1.3-2..073 -.098 1.85-2.5.053 -.098 1.3-2..073 -.098 1.85-2.5.106 -.15 2.7-3.9.16 -.185 3.7 -.7.177 -.217.5-5.5.053 -.098 1.3-2..073 -.098 185-2.5.106 -.15 2.7-3.9.16 -.185 3.7 -.7.177 -.217.5-5.5.22 -.256 5.7-6.5.75 3.38 1.25.62 ➀.07. 03 19 86 32 15.7 ➀ 1.2 0.9.75 3. 38 1.57.62.063. 03 19 86 38 15.7 1.6 0.9 1.02. 33 1.37.8 ➀.07. 03 26 110 35 21. ➀ 1.2 0. 9 1.02.33 2.00.8.063. 03 26 110 50 21. 1.6 0. 9 1.02. 33 3.00.8.09. 01 26 110 75 21. 2. 1. 0 1.02. 33 3.15.8.125. 01 26 110 80 21. 3.2 1. 0 1.02. 33 3.15.8.157. 01 26 110 80 21..0 1. 0 1.25 5. 90 1. 50.98 ➁.07. 03 32 150 38 2.8 ➁ 1. 2 0. 9 1.25 5.90 2.00.98 ➁.063. 03 32 150 50 2.8 ➁ 1.6 0. 9 1.25 5. 90.00.98.09. 01 32 150 100 2.8 2. 1. 0 1.25 5. 90.00.98.125. 01 32 150 100 2.8 3.2 1. 0 1.25 5.90 5.00.98.157. 01 32 150 125 2.8.0 1. 0 1.25 5. 90 5.00.98.205. 01 32 150 125 2.8 5.2 1. 0 21 20 21 20 20 20 20 21 20 20 20 20 20. 6 1 1. 3. 5 2 1 1. 5. 5 8 6 1. 9 5 9 2 1 5. 0. 7 0 7 1 8. 0. 6 2 9 1 7. 6. 6 9 1 1 7. 6. 8 5 3 2 1. 7. 8 2 7 2 1. 0 1. 0 3 9 2 6. 1. 0 0 6 2 5. 5 1. 0 0 6 2 5. 5 1. 0 0 6 2 5. 5 ESG 05 ESG 05 ESG 05 ESG 05 E S G 1 E S G 1 E S G 1 ESG 05 ESG 05 E S G 1 E S G 1 E S G 1 E S G 1 ➀ ➁ A =.07 (1.2mm) at DOC area only. Overall thickness is.063 ( 1. 6 m m ). A =.07 (1.2mm) or.063 (1.6mm) at DOC area only. Overall thickness is.09 ( 2. m m ). Ordering example : 5 pcs. TH101 26 3 Blades supplied with insert extractor. Inserts must be ordered separately. Note : Blades should not be used for turning or profiling. 10

Cut Off and Grooving TOOLHOLDERS THR/L 201 Use Insert TIMC : S t y l e TIMJ : TIPV : p a g e p a g e p a g e New Old Insert Seat Size W R a n g e F L Dm a x H A T N A1 (inch) (inch) (inch) (inch) (inch) Insert Extractor THR/L 201 06 2 VHR/L 201 06 2 2.073 -.098.31 3.0 1.125.375.375.35.03. 0 6 6 ESG 05 THR/L 201 08 2 VHR/L 201 08 2 2.073 -.098.62.3 1.25.500.500.1.03. 0 6 6 ESG 05 THR/L 201 08 3 VHR/L 201 08 3.106 -.15.58.3 1.25.500.500.38.01. 0 9 ESG 1 THR/L 201 10 2 VHR/L 201 10 2 2.073 -.098.593.5 1.25.625.625.1.03. 0 6 6 ESG 05 THR/L 201 10 3 VHR/L 201 10 3.106 -.15.590.5 1.37.625.625.37.01. 0 9 ESG 1 THR/L 201 10 VHR/L 201 10.16 -.185.562.5 1.50.625.625.3.01. 1 2 6 ESG 1 THR/L 201 12 2 VHR/L 201 12 2 2.073 -.098. 7 1 7.5 1.375.750.750.38.03. 0 6 6 ESG 05 THR/L 201 12 3 VHR/L 201 12 3.106 -.15.700.5 1.57.750.750.6.01. 0 9 ESG 1 THR/L 201 12 VHR/L 201 12.16 -.185.686.5 2.00.750.750.75.01. 1 2 6 ESG 1 THR/L 201 12 5 VHR/L 201 12 5.177 -.217.671.5 2.00.750.750.76.01. 1 6 1 ESG 1 THR/L 201 16 3 VHR/L 201 16 3.106 -.15.953 6.0 2.20 1.000 1.000.93.01. 0 9 ESG 1 THR/L 201 16 VHR/L 201 16.16 -.185.935 6.0 2.50 1.000 1.000 1.06.01. 1 2 6 ESG 1 THR/L 201 16 5 VHR/L 201 16 5.177 -.217.921 6.0 3.00 1.000 1.000 1.30.01. 1 6 1 ESG 1 THR/L 201 16 6 VHR/L 201 16 6 6.22 -.256.900 6.0 3.00 1.000 1.000 1.30.01. 1 8 9 ESG 1 THR/L 201 20 3 VHR/L 201 20 3.106 -.15 1.203 7.0 2.20 1.250 1.250.92.01. 0 9 ESG 1 THR/L 201 20 VHR/L 201 20.16 -.185 1.185 7.0 2.75 1.250 1.250 1.10.01. 1 2 6 ESG 1 THR/L 201 20 5 VHR/L 201 20 5.177 -.217 1.171 7.0 3.15 1.250 1.250 1.10.01. 1 6 1 ESG 1 THR/L 201 20 6 VHR/L 201 20 6.22 -.256 1.150 7.0 3.15 1.250 1.250 1.30.01. 1 8 9 ESG 1 Ordering example : 2pcs. THR 201 12 3 Toolholder supplied with insert extractor. Inserts must be ordered separately. Note : These toolholders should not be used for turning operations. Please select THR/L 211 style toolholders for turning. 11

Turning and Grooving TOOLHOLDERS THR/L 211 Use Insert TIMC : S t y l e TIMJ : TIPV : p a g e p a g e p a g e New Old Insert Seat Size W R a n g e F H A C T N A1 (inch) (inch) (inch) (inch) (inch) Spare Parts Screw Wrench ➀ THR/L 211 06 2 VHR/L 211 06 2 2.073 -.098.32 0.375 0.375.0. 3.03.066 P T - 7 6 9 T T 20 TORX THR/L 211 06 3 VHR/L 211 06 3.110 -.12.328 0.375 0.375.0.39.01.09 P T - 7 6 9 T T 20 TORX THR/L 211 08 2 VHR/L 211 08 2 2.073 -.098.67 0.500 0.500.0.3.03.066 P T - 7 7 0 T T 20 TORX THR/L 211 08 3 VHR/L 211 08 3.110 -.12.53 0.500 0.500.0.39.01.09 P T - 7 7 0 T T 20 TORX THR/L 211 10 3 VHR/L 211 10 3.110 -.12.578 0.625 0.625.0.39.01.09 M5 X 20 DIN 912 5/32 HEX THR/L 211 10 VHR/L 211 10.12 -.181.562 0.625 0.625.0.51.01.126 M5 X 20 DIN 912 5/32 HEX THR/L 211 12 3 VHR/L 211 12 3.110 -.12. 7 0 3 0.750 0.750 5.0.39.01.09 M5 X 20 DIN 912 5/32 HEX THR/L 211 12 VHR/L 211 12.12 -.181.687 0.750 0.750 5.0.51.01.126 M5 X 20 DIN 912 5/32 HEX THR/L 211 16 3 VHR/L 211 16 3.110 -.12.953 1.000 1.000 6.0.39.01.09 M5 X 25 DIN 912 5/32 HEX THR/L 211 16 VHR/L 211 16.12 -.181.937 1.000 1.000 6.0.51.01.126 M5 X 25 DIN 912 5/32 HEX THR/L 211 16 5 VHR/L 211 16 5.177 -.217.919 1.000 1.000 6.0.51.01.161 M5 X 25 DIN 912 M5 DIN 911 THR/L 211 16 6 VHR/L 211 16 6 6.213 -.256.906 1.000 1.000 6.0.63.01.189 M5 X 25 DIN 912 M5 DIN 911 THR/L 211 20 3 VHR/L 211 20 3.110 -.12 1.203 1.250 1.250 7.0.39.01.09 M5 X 20 DIN 912 5/32 HEX THR/L 211 20 VHR/L 211 20.12 -.181 1.187 1. 2 5 0 1.250 7.0.51.01.126 M5 X 25 DIN 912 5/32 HEX THR/L 211 20 5 VHR/L 211 20 5.177 -.217 1.169 1.250 1.250 7.0.51.01.161 M5 X 25 DIN 912 M5 DIN 911 THR/L 211 20 6 VHR/L 211 20 6 6.213 -.256 1.156 1.250 1.250 7.0.63.01. 1 8 9 M5 X 25 DIN 912 M5 DIN 911 ➀ 5/32 HEX wrench and mm DIN 911 wrench are interchangeable. Ordering example : 2pcs. THR 211 16 3 Toolholders supplied with screw and wrench. Inserts must be ordered separately. *TIMC and TIMJ inserts should be used for plunging applications only. 12

TOOLHOLDERS ID Turning and Grooving THR/L 619 Use Insert TIMC *: S t y l e TIMJ *: TIPV : p a g e p a g e p a g e New Old Insert Seat Size W R a n g e M i n. Dimensions Tm a x B o r e D F H C* * L1 L2 (inch) Ø D (inch) (inch) (inch) Lock Screw Seal No. THR/L 619 16C 078 THR/L 619 25C 2 VHR/L 619 16C 078 VHR/L 619 25C 2 2.073 -.098 1.85-2.5. 256 1. 69 1. 000. 803. 59. 012 8 2. 00 6.5 3 25 20 11. 5 0. 3 200 51 P T - 7 6 9 T PL-100 P L - 2 5 THR/L 619 16C 118 THR/L 619 25C 3 VHR/L 619 16C 118 VHR/L 619 25C 3.110 -.12 2.8-3.6.315 2. 05 1. 000. 827. 59. 020 8 2. 00 8 52 25 20. 8 11. 5 0. 5 200 51 P T - 7 6 9 T PL-100 PL-25 THR/L 619 16C 157 THR/L 619 25C THR/L 619 20C 078 THR/L 619 32C 2 THR/L 619 20C 118 THR/L 619 32C 3 THR/L 619 20C 157 THR/L 619 32C THR/L 619 20C 197 THR/L 619 32C 5 THR/L 619 2C 078 THR/L 619 0C 2 THR/L 619 2C 118 THR/L 619 0C 3 VHR/L 619 16C 157 VHR/L 619 25C VHR/L 619 20C 078 VHR/L 619 32C 2 VHR/L 619 20C 118 VHR/L 619 32C 3 VHR/L 619 20C 157 VHR/L 619 32C VHR/L 619 20C 197 VHR/L 619 32C 5 VHR/L 619 2C 078 VHR/L 619 0C 2 VHR/L 619 2C 118 VHR/L 619 0C 3 2 2.12 -.181 3.6 -.6.073 -.098 1.85-2.5.110 -.12 2.8-3.6.12 -.181 3.6 -.6.177 -.217.5-5.5.073 -.098 1.85-2.5.110 -.12 2.8-3.6.315 2. 05 1. 000. 827. 59. 020 8 2. 00 8 52 25 20. 8 11. 5 0. 5 200 51.295 1. 69 1. 250. 976. 570. 012 10 2. 50 7. 5 3 32 25 1. 5 0. 3 250 63. 5. 3 9 2. 0 5 1. 2 5 0 1. 0 3. 5 7 0. 0 2 0 1 0 2. 2 5 1 0 5 2 3 2 2 6. 6 1. 5 0. 5 2 5 0 5 7.39 2. 0 5 1. 2 5 0 1. 0 3. 5 7 0. 0 2 0 1 0 2. 0 0 10 5 2 3 2 2 6. 6 1. 5 0. 5 2 5 0 5 1. 39 2. 05 1. 250 1. 03. 570. 020 10 1. 75 10 52 32 26. 6 1. 5 0. 5 250 5.335 1. 6 9 1. 5 0 0 1. 1 3 8. 6 7 0. 0 1 2 1 2 3. 0 0 8.5 3 0 3 0 1 8. 0 0. 3 3 0 0 7 6. 7 2 2. 0 5 1. 5 0 0 1. 2 0. 6 7 0. 0 2 0 1 2 2. 5 0 1 2 5 2 0 3 3 1 8. 0 0. 5 3 0 0 6 3. 5 P T - 7 6 9 T P T - 7 7 0 T P T - 7 7 0 T P T - 7 7 0 T P T - 7 7 0 T P T - 7 7 0 T P T - 7 7 0 T PL-100 PL-25 PL-125 P L - 3 2 PL-125 PL-32 PL-125 PL-32 PL-125 PL-32 PL-150 PL-0 PL-150 PL-0 THR/L 619 2C 157 THR/L 619 0C VHR/L 619 2C 157 VHR/L 619 0C.12 -.181 3.6 -.6. 7 2 2. 0 5 1. 5 0 0 1. 2 0. 6 7 0. 0 2 0 1 2 2. 0 0 1 2 5 2 0 3 3 1 8. 0 0. 5 3 0 0 5 1 P T - 7 7 0 T PL-150 PL-0 THR/L 619 2C 197 THR/L 619 0C 5 VHR/L 619 2C 197 VHR/L 619 0C 5.177 -.217.5-5.5. 7 2 2. 0 5 1. 5 0 0 1. 2 0. 6 7 0. 0 2 0 1 2 1. 7 5 1 2 5 2 0 3 3 1 8. 0 0. 5 3 0 0 5 P T - 7 7 0 T PL-150 PL-0 THR/L 619 2C 236 THR/L 619 0C 6 VHR/L 619 2C 236 VHR/L 619 0C 6 6.213 -.256 5. - 6.5. 630 2. 13 1. 500 1. 398. 670. 020 12 2. 00 16 5 0 36. 5 18. 0 0. 5 300 51 P T - 7 7 0 T PL-150 P L - 0 *TIMC and TIMJ inserts should be used for plunging applications only. **Recommended cutting edge height above center for optimum results. Ordering example : 2 pcs. THR 619 20C 078 Seal Thread : Inch N.P.T.1/8 Metric R1/8 When using the seal, bar can be shortened by inches(100mm) max. Boring bar supplied complete with lock screw, T20 Torx wrench and seal, less insert. 13

SLOTTING CUTTERS NA R ROW WIDTH SLOTTING CUTTERS Inch and Metric Cutting Diameters : 3.00,.00, 5.00, 6.00, 8.00 10.00 and 75mm, 100mm, 125mm, 160mm Cutting Width Ranges :.063 -.250 Geometry : Positive Rake Applications : Slotting and Sawing Materials : Carbon Steels, Alloy Steels, Stainless Steels, Irons, Aluminum, and Exotics T-ClampUltra cutters are specifically designed to maximize metal removal rates while providing exceptional surface finishes. The rugged body construction has no wedges, clamps, or screws thereby making machining operations and applications much simpler. T-ClampUltra Slotting Cutters are just one element of a totally integrated system that incorporates the well recognized and accepted Double Prism V method of insert retention. This system allows the use of common insert seat sizes throughout the T-ClampUltra line, thereby reducing insert inventories. Features/Benefits of T-ClampUltra Slotting Cutters : narrow width applications to.063 simple easy-to-mount inserts secure insert retention self-positioning insert stopper for repeatability drive flange mounting for extra stability minimal radial runout efficient chip evacuation reduced cutting forces improved tool life inserts compatible with T-Clamp Ultra system economical Sloting Cutter N o m e n c l a t u r e TSC-.122-1.000K TaeguTec SLOTING CUTTER CUTTER DIAMETER (INCH) INSERT/SLOT CUTTING WIDTH MOUNTING HOLE SIZE DRIVE FLANGE xx Inch or xx/xxx Metric xxx Inch x/xx Metric x.xxx Inch xx Metric A-Integral Style B Arbor Drive Flange K-Drive Flange Set Required (Must be ordered separately) 1

SLOTTING CUTTERS T S C Use Insert TIMC : S t y l e TIMJ : TIPV * : p a g e p a g e p a g e ROTATION Style 1 Style 2 Drive flange set Style 1 TSC 3.063-1.000A TSC.063-1.000A TSC 3.087-1.000A Dia. D 3. 0 0. 0 0 3. 0 0 W R a n g e 0. 0 6 3 0. 0 6 3. 0 7 9 -. 0 9 1 Cutter Dimensions Insert Seat Size 1 1 2 No. of Teeth 8 1 0 8 d A Max. DOC. 1. 000 ➀. 09 (. 09 ) 0. 71 1. 000. 09 (. 09 ) 1. 21 1. 000. 09 (. 063 ) 0. 71 Max. RPM 1 0 5 0 7 8 0 1 0 5 0 Dia. D 2 1. 5 1. 5 1. 5 D r i v e Flange Dimensions D r i v e F l a n g e D d d 1 d 2 A 1 S e t - - - - - - - - - - - - - - - - - - TSC.122-1.000K. 0 0. 1 1 0 -. 1 3 8 6 1. 0 0 0. 0 9 1. 0 8 7 8 0 - FL - 0002 1. 8 1 1. 0 0 1. 2. 1 9. 3 9 TSC 5.122-1.250K 5. 0 0. 1 1 0 -. 1 3 8 8 1. 2 5 0. 0 9 1. 0 6 3 0 - FL - 0003 2. 1 7 1. 2 5 1. 7 7. 2 3. 3 9 TSC 6.122-1.500K 6. 0 0. 1 1 0 -. 1 3 8 1 0 1. 5 0 0. 0 9 1. 1 5 2 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 TSC 8.122-1.500K 8. 0 0. 1 1 0 -. 1 3 8 1 1. 5 0 0. 0 9 2. 1 3 9 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 Style 2 TSC.188-1.000K TSC 5.188-1.250K. 00 5. 00. 179 -. 216. 179 -. 216 6 8 1. 000 1. 250. 157. 157 1. 08 1. 0 780 630 - - FL - 0002 FL - 0003 1. 81 2. 17 1. 0 0 1. 2 5 1. 2 1. 77. 19. 23. 39. 39 TSC 6.188-1.500K 6. 0 0. 1 7 9 -. 2 1 6 1 0 1. 5 0 0. 1 5 7 1. 1 5 2 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 TSC 8.188-1.500K 8. 0 0. 1 7 9 -. 2 1 6 1 1. 5 0 0. 1 5 7 2. 1 3 9 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 TSC 6.236-1.500K 6. 0 0. 2 2 0 -. 2 5 6 6 1 0 1. 5 0 0. 2 0 3 1. 1 5 2 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 TSC 8.236-1.500K 8. 0 0. 2 2 0 -. 2 5 6 6 1 1. 5 0 0. 2 0 3 2. 1 3 9 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 TSC 10.236-1.500K 1 0. 0 0. 2 2 0 -. 2 5 6 6 1 8 1. 5 0 0. 2 0 3 3. 1 3 1 0 - FL - 000 3. 1 5 1. 5 0 2. 8. 3. 7 * For precision widths and slot forms. Cutter supplied with insert extractor. Inserts must be ordered separately. ➀ Width at blade shown in parentheses. Note:Insert extractor supplied with each cutter. Drive flange set required for all Style 2 cutters. Caution : These cutters have maximum RPM ratings. 15

16

INSERT DESIGNATION SYSTEM Only Handed Insert T D C 3 6 R S TaeguTec Insert D :Double Ended Insert CHIPBREAKER TYPE WIDTH OF INSERT (mm) LEAD ANGLE HAND OF INSERT SHARP CORNER RADIUS S:Single Ended Insert C:For Medium J:For Light 2:2.0 3:3.0 :.0 5:5.0 6:6.0 CUT OFF & GROOVING TURNING, GROOVING & FACE MACHINING T D T 3.00 E 0.0 R F TaeguTec Insert D:Double Ended Insert S:Single Ended Insert CHIPBREAKER TYPE T:For Carbon Steel, Alloy Steel, Stainless Steel, High-Temp Alloys, Cast Iron A:For Aluminium G :Without Chipbreaker E :For Turning & Grooving No Designation: for Precision Grooving FOR FACE MACHINING Apply R Insert on R Tool L Insert on L Tool F:Face Turning & Grooving I :Internal Turning & Grooving WIDTH OF INSERT. :Precision Insert. :Pressed Insert CORNER RADIUS. :Precision Insert. :Pressed Insert 17

Cut Off and Grooving INSERTS TDC / TSC with C-type Chipbreakers T D C - Ty p e T S C - Ty p e Neutral Neutral Left-hand Left-hand Right-hand Right-hand W±. 0 0 2 W± 0. 0 5 R L K H Tm a x ( d e g r e e s ) TDC TSC I S O G r a d e s K P P M PMK K 10 T T 7220 T T 8020 T T 9030 TDC/TSC 2 TDC/TSC 2-6L TDC/TSC 2-6R TDC/TSC 2-8L TDC/TSC 2-8R TDC/TSC 2-15L TDC/TSC 2-15R TDC/TSC 2-15LS TDC/TSC 2-15RS. 079. 008. 79 0º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 6º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 6º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 8 º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 8 º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 15 º. 185. 78 2. 0 0. 20 20. 7 19. 079. 008. 79 15 º. 185. 78 2. 0 0. 20 20. 7 19. 079. 0008. 77 15 º. 185. 78 2. 0 0. 02 19. 6. 7 19. 079. 0008. 77 15 º. 185. 78 2. 0 0. 02 19. 6. 7 19 Ordering example : 100 pcs. TDC 2 TT7220 :Stock :Tailor Made 18

Cut Off and Grooving INSERTS TDC / TSC with C-type Chipbreakers T D C - Ty p e T S C - Ty p e Max. Dia(mm). cut off & grooving TSC 3-15R/L :Ø95.3 TDC 3-15RS/LS:Ø28. TSC 3-15RS/LS:Ø33.2 The others :unlimited Neutral Left-hand Right-hand Neutral Left-hand Right-hand W±. 0 0 2 W± 0. 0 5 R L K H Tm a x ( d e g r e e s ) TDC TSC I S O G r a d e s K P P M PMK K 10 T T 7220 T T 8020 T T 9030 TDC/TSC 3 TDC/TSC 3-6L TDC/TSC 3-6R TDC/TSC 3-15L TDC/TSC 3-15R TDC/TSC 3-15LS TDC/TSC 3-15RS. 118. 008. 79 0º. 185. 78 3. 0 0. 20 20. 7 19. 118. 008. 79 6º. 185. 78 3. 0 0. 20 20. 7 19. 118. 008. 79 6º. 185. 78 3. 0 0. 20 20. 7 19. 118. 008. 79 15 º. 185. 78 3. 0 0. 20 20. 7 19. 118. 008. 79 15 º. 185. 78 3. 0 0. 20 20. 7 19. 118. 0008. 77 15 º. 185. 78 3. 0 0. 02 19. 6. 7 19. 118. 0008. 77 15 º. 185. 78 3. 0 0. 02 19. 6. 7 19 Ordering example : 100 pcs. TDC 3 TT7220 :Stock :Tailor Made 19

Cut Off and Grooving INSERTS TDC / TSC with C-type Chipbreakers Max. Dia(mm). cut off & grooving TDC -15R/L :Ø28.9 TSC -15R/L :Ø3.7 The others :unlimited T DC- Ty p e T SC- Ty p e Neutral Left-hand Neutral Left-hand Right-hand Right-hand W±. 0 0 2 W± 0. 0 5 R L K H Tm a x ( d e g r e e s ) TDC TSC I S O G r a d e s K P P M PMK K 10 T T 7220 T T 8020 T T 9030 TDC/TSC TDC/TSC -L TDC/TSC -R TDC/TSC -15L TDC/TSC -15R TDC/TSC 5 TDC/TSC 5-L TDC/TSC 5-R TDC/TSC 6 Ordering example : 100 pcs. TDC 5 TT7220. 157. 012. 79 0 º. 185. 78. 0 0. 30 20. 7 19. 157. 012. 79 º. 185. 78. 0 0. 30 20. 7 19. 157. 012. 79 º. 185. 78. 0 0. 30 20. 7 19. 157. 012. 79 15 º. 185. 78. 0 0. 30 20. 7 19. 157. 012. 79 15 º. 185. 78. 0 0. 30 20. 7 19. 197. 012. 98. 205. 95 0 º 5. 0 0. 30 25 5. 2 2. 197. 012. 98. 205. 95 º 5. 0 0. 30 25 5. 2 2. 197. 012. 98. 205. 95 º 5. 0 0. 30 25 5. 2 2. 236. 012. 98. 205. 95 0 º 6. 0 0. 30 25 5. 2 2 :Stock :Tailor Made 20

Cut Off and Grooving INSERTS TDJ / TSJ with J-type Chipbreakers T DJ- Ty p e T SJ- Ty p e Max. Dia(mm). cut off & grooving TDJ 2-15RS/LS:Ø27.2 TSJ 3-15R/L :Ø102. TSJ 3-15RS/LS:Ø33. The others :unlimited Neutral Left-hand Right-hand Neutral Left-hand Right-hand W±. 0 0 2 W± 0. 0 5 R L K H Tm a x ( d e g r e e s ) TDC TSC TDJ/TSJ 2. 079 2. 0. 008 0. 20. 79 20 0º. 185. 7. 78 19 TDJ/TSJ 2-6L. 079 2. 0. 008 0. 20. 79 20 6º. 185. 7. 78 19 TDJ/TSJ 2-6R. 079 2. 0. 008 0. 20. 79 20 6º. 185. 7. 78 19 TDJ/TSJ 2-8L. 079 2. 0. 008 0. 20. 79 20 8 º. 185. 7. 78 19 TDJ/TSJ 2-8R. 079 2. 0. 008 0. 20. 79 20 8 º. 185. 7. 78 19 TDJ/TSJ 2-15L. 079 2. 0. 008 0. 20. 79 20 15 º. 185. 7. 78 19 TDJ/TSJ 2-15R. 079 2. 0. 008 0. 20. 79 20 15 º. 185. 7. 78 19 TDJ/TSJ 2-15LS. 079 2. 0. 0008 0. 02. 77 19. 6 15 º. 185. 7. 78 19 TDJ/TSJ 2-15RS. 079 2. 0. 0008 0. 02. 77 19. 6 15 º. 185. 7. 78 19 TDJ/TSJ 3. 118 3. 0. 008 0. 20. 79 20 0º. 185. 7. 78 19 TDJ/TSJ 3-6L. 118 3. 0. 008 0. 20. 79 20 6º. 185. 7. 78 19 TDJ/TSJ 3-6R. 118 3. 0. 008 0. 20. 79 20 6º. 185. 7. 78 19 TDJ/TSJ 3-15L. 118 3. 0. 008 0. 20. 79 20 15 º. 185. 7. 78 19 TDJ/TSJ 3-15R. 118 3. 0. 008 0. 20. 79 20 15 º. 185. 7. 78 19 TDJ/TSJ 3-15LS. 118 3. 0. 008 0. 20. 77 19. 6 15 º. 185. 7. 78 19 TDJ/TSJ 3-15RS. 079 3. 0. 008 0. 20. 77 19. 6 15 º. 185. 7. 78 19 Ordering example : 100 pcs. TDJ 2 TT7220 I S O G r a d e s K P P M PMK K 10 T T 7220 T T 8020 T T 9030 :Stock :Tailor Made 21

Cut Off and Grooving INSERTS TDJ / TSJ with J-type Chipbreakers Max. Dia(mm). cut off & grooving TDJ -15R/L :Ø31.6 TSJ -15R/L :Ø35.2 The others :unlimited T DJ- Ty p e T SJ- Ty p e Neutral Neutral Left-hand Left-hand Right-hand Right-hand W±. 0 0 2 W± 0. 0 5 R L K H Tm a x ( d e g r e e s ) TDC TSC I S O G r a d e s K P P M PMK K 10 T T 7220 T T 8020 T T 9030 TDJ/TSJ TDJ/TSJ -L. 157. 012. 79. 185. 78 0º. 0 0. 30 20. 7 19. 157. 012. 79. 185. 78 º. 0 0. 30 20. 7 19 TDJ/TSJ -R. 157. 012. 79. 185. 78 º. 0 0. 30 20. 7 19 TDJ/TSJ -15L TDJ/TSJ -15R. 157. 012. 79. 185. 78 15 º. 0 0. 30 20. 7 19. 157. 012. 79. 185. 78 15 º. 0 0. 30 20. 7 19 TDJ/TSJ 5. 197. 012. 98. 205. 95 0º 5. 0 0. 30 25 5. 2 2 TDJ/TSJ 5-L. 197. 012. 98. 205. 95 º 5. 0 0. 30 25 5. 2 2 TDJ/TSJ 5-R. 197. 012. 98. 205. 95 º 5. 0 0. 30 25 5. 2 2 TDJ/TSJ 6. 236. 012. 98. 205. 95 0 º 6. 0 0. 30 25 5. 2 2 : Only TDJ Ordering example : 100 pcs. TDJ 5 TT7220 :Stock :Tailor Made 22

INSERTS Pressed Turning and Grooving T D X U - E W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R±0. 0 5 B L H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDXU E - 0.. 157. 016. 118. 79. 185. 00 0. 0 3. 0 20. 7 Ordering example : 100 pcs. TDXU E - 0. TT5100 :Stock :Tailor Made 23

INSERTS Precision Turning and Grooving T D T with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R±0. 0 5 B L H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDT 1.98-0.18. 078 1. 98. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 2.2-0.18. 088 2. 2. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 2.29E-0.18. 090 2. 29. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 2.39-0.18. 09 2. 39. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 2.6-0.33. 097 2. 6. 013 0. 33. 087 2. 2. 79 20. 185. 7 TDT 2.67-0.18. 105 2. 67. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 2.79-0.33. 110 2. 79. 013 0. 33. 087 2. 2. 79 20. 185. 7 TDT 3.00E-0.20. 118 3. 00. 008 0. 20. 087 2. 2. 79 20. 185. 7 TDT 3.00E-0.0. 118 3. 00. 016 0. 0. 087 2. 2. 79 20. 185. 7 TDT 3.10-0.18. 122 3. 10. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 3.18E-0.0. 125 3. 18. 016 0. 0. 087 2. 2. 79 20. 185. 7 TDT 3.18-0.18. 125 3. 18. 007 0. 18. 087 2. 2. 79 20. 185. 7 TDT 3.30E-0.18. 130 3. 30. 007 0. 18. 118 3. 0. 79 20. 185. 7 TDT 3.61-0.33. 12 3. 61. 013 0. 33. 118 3. 0. 79 20. 185. 7 TDT 3.96-0.18. 156 3. 96. 007 0. 18. 118 3. 0. 79 20. 185. 7 TDT 3.96E-0.0. 156 3. 96. 016 0. 0. 118 3. 0. 79 20. 185. 7 TDT.00E-0.0. 157. 00. 016 0. 0. 118 3. 0. 79 20. 185. 7 TDT.00E-0.80. 157. 00. 031 0. 80. 118 3. 0. 79 20. 185. 7 TDT.32E-0.38. 170. 32. 015 0. 38. 157. 0. 98 25. 205 5. 2 Ordering example : 100 pcs. TDT 3.30E-0.18 TT5100 v :Stock :Tailor Made 2

INSERTS Precision Turning and Grooving T D T with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R± 0. 0 5 B L H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDT.50E - 0.0.177.50.016 0.0.157.0.98 25.205 5.2 TDT.52-0.18.178.52.007 0.18.157.0.98 25.205 5.2 TDT.70-0.56.185.70.022 0.56.157.0.98 25.205 5.2 TDT.75E - 0.0.187.75.016 0.0.157.0.98 25.205 5.2 TDT.78E - 0.55.188.78.022 0.55.157.0.98 25.205 5.2 TDT.80-0.56.189.80.022 0.56.157.0.98 25.205 5.2 TDT 5.00E - 0.0.197 5.00.016 0.0.157.0.98 25.205 5.2 TDT 5.00E - 0.80.197 5.00.031 0.80.157.0.98 25.205 5.2 TDT 5.33E - 0.61.210 5.33.02 0.61.197 5.0.98 25.205 5.2 TDT 5.1-0.18.213 5.1.007 0.18.187 5.0.98 25.205 5.2 TDT 5.56-0.56.219 5.56.022 0.56.187 5.0.98 25.205 5.2 TDT 6.00E - 0.0.236 6.00.016 0.0.197 5.0.98 25.205 5.2 TDT 6.00E - 0.80.236 6.00.031 0.80.197 5.0.98 25.205 5.2 TDT 6.00E - 1.20.236 6.00.07 1.20.197 5.0.98 25.205 5.2 TDT 6.35-0.56.250 6.35.022 0.56.236 6.0 1.18 30.252 6. TDT 6.35E - 0.0.250 6.350.016 0.0.236 6.0 1.18 30.252 6. TDT 6.8E - 0.61.255 6.8.127 3.23.236 6.0 1.18 30.252 6. TDT 7.93E - 0.0.312 7.925.016 0.0.236 6.0 1.18 30.252 6. TDT 8.00E - 0.80.315 8.00.031 0.80.236 6.0 1.18 30.252 6. TDT 8.00E - 1.20.315 8.00.07 1.20.236 6.0 1.18 30.252 6. Ordering example : 100 pcs. TDT 5.00E - 0.0 TT5100 :Stock :Tailor Made 25

INSERTS Precision Turning and Grooving T D T with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R±0. 0 5 B L H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDT 3.00E - 1.50 TDT 3.30E - 1.65 TDT.00E - 2.00 TDT.32E - 2.16 TDT.78E - 2.39 TDT 5.00E - 2.50 TDT 5.33E - 2.67 TDT 6.00E - 3.00 TDT 6.8E - 3.23. 118. 059. 087. 79. 185 3. 00 1. 50 2. 2 20. 7. 130. 065. 118. 79. 185 3. 30 1. 65 3. 0 20. 7. 157. 079. 118. 79. 185. 00 2. 00 3. 0 20. 7. 170. 085. 157. 98. 205. 32 2. 16. 0 25 5. 2. 188. 09. 157. 98. 205. 78 2. 39. 0 25 5. 2. 197. 098. 157. 98. 205 5. 00 2. 50. 0 25 5. 2. 210. 105. 197. 98. 205 5. 33 2. 67 5. 0 25 5. 2. 236. 118. 157. 98. 205 6. 00 3. 00 5. 0 25 5. 2.255. 127. 236 1. 18. 252 6.8 3. 23 6. 0 30 6. Ordering example : 100 pcs. TDT 3.30E - 1.65 TT5100 :Stock :Tailor Made 26

INSERTS Precision Turning and Grooving T D T with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 1 2 R±0. 0 3 B L L 1 H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDT 1.00-0.00 TDT 1.30-0.00 TDT 1.60-0.10 TDT 1.85-0.10 TDT 2.00-0.20 TDT 2.15-0.15 TDT 2.65-0.15 TDT 3.00-0.20 TDT 3.15-0.15 TDT 3.18-0.20 TDT.00-0.20 TDT.15-0.15 TDT 5.00-0.20 TDT 5.15-0.15 TDT 6.00-0.20 Ordering example : 100 pcs. TDT 1.85-0.10 TT5100. 039. 000. 087. 79. 079. 185 1. 00 0. 00 2. 2 20 2. 5. 7. 051. 000. 087. 79. 079. 185 1. 30 0. 00 2. 2 20 2. 5. 7. 063. 00. 087. 79. 079. 185 1. 60 0. 10 2. 2 20 2. 5. 7. 073. 00. 087. 79. 118. 185 1. 85 0. 10 2. 2 20 3. 5. 7. 079. 008. 087. 79. 118. 185 2. 00 0. 20 2. 2 20 3. 5. 7. 085. 006. 087. 79. 118. 185 2. 15 0. 15 2. 2 20 3. 5. 7. 10. 006. 087. 79. 197. 185 2. 65 0. 15 2. 2 20 5. 0. 7. 118. 008. 087. 79. 197. 185 3. 00 0. 20 2. 2 20 5. 0. 7. 12. 006. 087. 79. 197. 185 3. 15 0. 15 2. 2 20 5. 0. 7. 125. 008. 087. 79. 197. 185 3. 18 0. 20 2. 2 20 5. 0. 7. 157. 008. 118. 79. 197. 185. 00 0. 20 3. 0 20 5. 0. 7. 163. 006. 118. 79. 197. 185. 15 0. 15 3. 0 20 5. 0. 7. 197. 008. 157. 98. 197. 205 5. 00 0. 20. 0 25 5. 0 5. 2. 203. 006. 157. 98. 197. 205 5. 15 0. 15. 0 25 5. 0 5. 2. 236. 008. 197. 98. 197. 205 6. 00 0. 20 5. 0 25 5. 0 5. 2 :Stock :Tailor Made 27

Pressed Turning and Grooving INSERTS TDT-E with T-type Chipbreakers W±. 0 0 2 W±0. 0 5 R B L H I S O G r a d e s K P PM K 10 A B 30 T T 7220 T T 5100 TDT 3E - 0..118.016.087.79. 185 3. 00 0. 0 2. 2 20. 7 TDT E - 0.. 157.016. 118.79. 185. 00 0. 0 3. 0 20. 7 TDT E - 0.T CE. 157.016. 118.79. 185. 00 0. 0 3. 0 20. 7 TDT 6E - 0.8T CE. 236.031. 157. 98. 205 6. 00 0. 80 5. 0 25 5. 2 Ordering example : 100 pcs. TDT 3E - 0. TT5100 :Stock :Tailor Made Application (AB30) Workpiece:Cast Iron, Hardened Steel, Graphite Machining:External, Internal, Face Grooving & Turning Recommended Machining Condition: Vc:600~800m/min, F:0.1~0.25mm/rev Feature : -Economical Press-to-Size -Double ended Cutting edge 28

INSERTS Precision Internal Turning and Grooving TDIT-E with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R±0. 0 5 B L H I S O G r a d e s K P PM K 10 A B 30 ( c e r a m i c ) T T 7220 T T 5100 TDIT 3.00E - 0.0.118.016.087.79. 185 3. 00 0. 0 2. 2 20. 7 TDIT.00E - 0.0. 157.016. 118.79. 185. 00 0. 0 3. 0 20. 7 TDIT.00E - 0.80. 157.031. 118.79. 185. 00 0. 80 3. 0 20. 7 TDIT 5.00E - 0.0. 197.016. 157. 98. 205 5. 00 0. 0. 0 25 5. 2 TDIT 5.00E - 0.80. 197. 031. 157. 98. 205 5. 00 0. 80. 0 25 5. 2 TDIT 6.00E - 0.80. 236. 031. 197. 98. 205 6. 00 0. 80 5. 0 25 5. 2 TDIT 6.00E - 1.20. 236. 07. 197. 98. 205 6. 00 1. 20 5. 0 25 5. 2 TDIT 8.00E - 0.80. 315. 031. 236 1. 18. 252 8. 00 0. 80 6. 0 30 6. TDIT 8.00E - 1.20. 315. 07. 236 1. 18. 252 8. 00 1. 20 6. 0 30 6. TDIT E - 0.T CE (1). 157. 016. 118. 79. 185.0±0. 05 0. 0 3. 0 20. 7 TDIT 6E - 0.8T CE (1). 236. 031. 197. 98. 205 6.0±0. 05 0. 80 5. 0 25 5. 2 (1) This insert is pressed ceramic insert :Stock :Tailor Made Ordering example : 100 pcs. TDIT 3.00E - 0.0 TT5100 29

INSERTS Precision Internal Turning and Grooving TDIT-E with T-type Chipbreakers W±. 0 0 0 8 W±0. 0 2 R±. 0 0 2 R±0. 0 5 B L H I S O G r a d e s K P PM K 10 T T 7220 T T 5100 TDIT 3.00E - 1.50.118. 0 5 9.087.79. 1 8 5 3.00 1.50 2.2 20. 7 TDIT.00E - 2.00 TDIT 5.00E - 2.50 TDIT 6.00E - 3.00. 157.079. 118.79. 185.00 2. 00 3. 0 20. 7. 197.098. 157.98. 205 5.00 2. 50. 0 25 5. 2. 236.118. 197.98. 205 6.00 3. 00 5. 0 25 5. 2 Ordering example : 100 pcs. TDIT 5.00E - 2.50 TT5100 :Stock :Tailor Made 30

INSERTS Pressed Face Turning and Grooving TDFT-E with T-type Chipbreakers W±. 0 0 2 W±0. 0 5 R B L H I S O G r a d e s K P PM A B 30 K 10 ( c e r a m i c ) T T 7220 T T 5100 TDFT 3E - 0.R/L (1).118.016.087.79. 185 3.0 0. 2.2 20. 7 TDFT E - 0.R/L. 157.016. 118.79. 185.0 0. 3. 0 20. 7 TDFT E - 0.TR/L CE. 157.016. 118.79. 185.0 0. 3. 0 20. 7 TDT 6E - 0.8T CE (2). 236. 031. 197. 98. 205 6.0 0.8 5. 0 25 5. 2 Ordering example : 100 pcs. TDFT E - 0.R TT5100 (1) This insert can be mounted on TGFR/L...-, and TGFPR/L 2525- (2) This insert can be mounted on all kinds of holder for face machining. :Stock :Tailor Made 31

INSERTS Precision Turning and Grooving TDA/TSA with A-type Chipbreakers W±. 0 0 2 W±0. 0 5 R±. 0 0 2 R±0. 0 5 B L H A I S O G r a d e s K K 1 0 K P 3 0 0 ( P C D ) TDA 6.00-3.00.236.118.197. 98. 205 6. 00 3. 00 5. 0 25 5. 2 7 TDA 8.00 -.00. 31.157. 236 1.18. 252 8. 00. 00 6. 0 30 6. 1 0 TSA 6.00-3.00. 236.118. 197. 98. 205 6. 00 3. 00 5. 0 25 5. 2 7 TSA 8.00 -.00. 31. 157. 236 1. 18. 252 8. 00. 00 6. 0 30 6. 1 0 Ordering example : 100 pcs. TDA 6.00-3.00 K10 :Stock :Tailor Made 32

BLADE & TOOLHOLDER DESIGNATION SYSTEM T G B 32 3 L BLADE BLADE HEIGHT INSERT SIZE L:Long Type Blade S:Single Type Blade MS:Blade For Multi Spindle Machine TaeguTec G: Grooving T: Turning SHANK DIAMETER T G E 20 R 25 3 25 U E:External Machining I:Internal Machining F:Face Machining HAND OF TOOLHOLDER SHANK HEIGHT SHANK WIDTH INSERT SIZE U: Undercutting P: Perpendicular Type C: With Coolant Hole T :Overhang SH:Holder For Swiss Automatics RN: Renewed Type Holder 33

Cut Off and Grooving BLADES TG B Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e F i g.1 F i g.2 W B L H A Dmax Insert B l o c k F i g. Extractor TGB 26-2S TGB 26-3S TGB 26 - S ➀ ➀ ➀.075 -.095 1.90-2.0.095 -.126 2.1-3.20.126 -.165 3.21 -.20 1.02 5.90 1. 97. 8. 071 26 150 50 21. 1. 8 1.02 5. 90 1. 97. 8. 09 26 150 50 21. 2. 1. 02 5. 90 3. 15 8. 126 26 150 80 21. 3. 2 TTBN -26 TTBU -26 EDG - 33B EDG - 33B EDG - 33B 1 1 1 TGB 32-2.075 -.095 1.90-2.0 1.26 5. 90 1. 57. 98. 071 32 150 0 2. 8 1. 8 EDG - 33B 2 TGB 32-3.095 -.126 2.1-3.20 1.26 5. 90 3. 9. 98. 09 32 150 100 2. 8 2. EDG - 33B 2 TGB 32 - TGB 32-5.126 -.165 3.21 -.20.166 -.205.21-5.20 1.26 5. 90 3. 9. 98. 126 32 150 100 2. 8 3. 2 1.26 5. 90. 72. 98. 157 32 150 120 2.. 0 TTBN -32 TTBU -32 EDG - 33B EDG - 33B 2 2 TGB 32-6.205 -.2 5.21-6.20 1.26 5. 90. 72. 98. 205 32 150 120 2. 8 5. 2 EDG - 33B 2 TGB 5 -.126 -.165 3.21 -.20 1. 77 5. 90 6. 30 1. 5. 126 5 150 160 38. 1 3. 2 EDG - 33B 2 ➀ Single ended Blade Ordering example : 5 pcs. TGB 32-2 Insert extractor should be ordered separately 3

Cut Off and Grooving BLADES TG B - M S Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e W H L E A1 A2 Ø Dm a x (inch) (inch) (inch) Insert Extractor TGB 5-22 - 2 - MS.075 -.098. 0 6 3 1. 6 5 TGB 5-22 - 3 - MS.099 -.129. 8 7 5. 9 0 5 1. 2 6. 0 9. 1 2 6 2. 3 6 EDG - 33B TGB 5-22 - - MS.130 -.169. 1 2 6 3. 1 5 Ordering example : 5 pcs. TGB 5-22-2-MS Insert extractor should be ordered separately 35

Cut Off and Grooving BLOCKS T T B N H H1 H2 H3 H B L1 L2 L3 (inch) (inch) (inch) (inch) (inch) Screw Wrench TTBN 19-26 1. 0 2. 8. 7 5. 3 5 1. 5 0. 1 6 3. 3. 7 5 1. 3 0 SH M6 X 1 X 25 L - W 5 TTBN 19-32 1. 2 6. 9 8. 7 5. 5 5 1. 8 9. 2 2 3. 9. 7 5 1. 3 8 SH M6 X 1 X 0 L - W 5 TTBN 25. - 26 1. 0 2. 8 1. 0 0. 1 0 1. 5 0. 1 6. 3 3. 7 9 1. 3 SH M6 X 1 X 25 L - W 5 TTBN 25. - 32 1. 2 6. 9 8 1. 0 0. 3 0 1. 8 9. 2 2. 3 3. 7 9 1. 2 SH M6 X 1 X 0 L - W 5 TTBN 31.8-32 1. 2 6. 9 8 1. 2 5. 1 3 1. 8 9. 2 2. 7 2 1. 1 0 1. 7 3 SH M6 X 1 X 0 L - W 5 Ordering example : 1 pcs. TTBN 19-26 36

Cut Off and Grooving BLOCKS T T BU H H1 H2 H3 H B L1 L2 L3 (inch) (inch) (inch) (inch) (inch) Screw Clamp Wrench TTBU 19-26 1. 0 2. 8. 7 5. 3 5 1. 6 9. 1 6 3. 3 9. 8 3 1. 5 0 SR M6 X 30 B K U - 8 6 L - W 5 TTBU 19-32 1. 2 6. 9 8. 7 5. 5 1. 9 7. 2 1 3. 9. 7 5 1. 5 0 SR M6 X 30 B K U - 1 1 0 L - W 5 TTBU 25. - 26 1. 0 2. 8 1. 0 0. 1 9 1. 7 7. 1 6. 3 3. 9 1 1. 6 5 SR M6 X 30 B K U - 1 0 0 L - W 5 TTBU 25. - 32 1. 2 6. 9 8 1. 0 0. 2 9 1. 9 7. 2 1. 3 3. 9 1 1. 6 5 SR M6 X 30 B K U - 1 1 0 L - W 5 TTBU 31.8-32 1. 2 6. 9 8 1. 2 5. 2 0 2. 1 3. 2 1. 3 3 1. 1 1. 8 9 SR M6 X 30 B K U - 1 1 0 L - W 5 Ordering example : 1 pcs. TTBU 25.-26 TOP CLAMP 37

Cut Off and Grooving TOOLHOLDERS TG E R / L Use Insert T D XU: B23 p a g e T DC/ T SC: B18~B20 p a g e S t y l e T DJ/ T SJ : B21~B22 p a g e T DT: B2~B28 p a g e Right hand shown W Dm a x F L H B E A H1 (inch) T DJ/C T SJ/C Insert Extractor TGER/L 9.5-2.075 -.095.30. 5 0 1.30 1.30.375. 3 7 5 1. 2 2.071. 3 3 E D G - 3 3 B TGER/L 12.7-2.075 -.095.65. 5 0 1.38 1.38.50. 5 0 1. 2 2. 0 7 1. 2 1 E D G - 3 3 B TGER/L 12.7-3.095 -.126. 5 3. 5 0 1.50 1.57.50. 5 0 1.22. 0 9. 2 1 E D G - 3 3 B TGER/L 1616-2.075 -.095.59 5.91 1.38 1.38.63. 6 3 1.22. 0 6 6. 0 8 E D G - 3 3 B TGER/L 1616-3.095 -.126.583 5. 9 1 1. 5 0 1. 7 7.63. 6 3 1.22. 0 9. 2 E D G - 3 3 B TGER/L 19-2.075 -.095. 7 1 5. 5 0 1. 3 8 1. 3 8. 7 5. 7 5 1. 2 2. 0 7 1. 0 0 E D G - 3 3 B TGER/L 19-3.095 -.126.703.50 1. 5 0 1.77.75. 7 5 1.22. 0 9. 0 0 E D G - 3 3 B TGER/L 19 -.126 -.165.687.50 1.50 2.17. 7 5. 7 5 1. 3 0. 1 2 6. 0 0 E D G - 3 3 B TGER/L 25.-3.095 -.126.953 6. 0 0 1. 5 0 1.77 1.00 1. 0 0 1. 2 2. 0 9. 0 0 E D G - 3 3 B TGER/L 25.-.126 -.165.937 6.00 1.50 2.17 1.00 1. 0 0 1.30. 1 2 6. 0 0 E D G - 3 3 B Ordering example : 5 pcs. TGER 12.7-2 Insert extractor should be ordered separately 38

Turning and Grooving TOOLHOLDERS T T E R / L Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e Right hand shown W F L H B E Tm a x A (inch) (inch) (inch) (inch) Screw Wrench TTER/L 1616-2.071 -.095.59.3.63. 6 3 1.26. 7 2. 0 6 3 SH M5 X 0.8 X 16 L - W TTER/L 1616-3.095 -.126.59. 3. 6 3. 6 3 1.26. 7 2.083 SH M5 X 0.8 X 16 L - W TTER/L 1616-3T09.095 -.126.75 5. 0.75. 7 5 1.26. 3 5. 0 8 3 SH M5 X 0.8 X 16 L - W TTER/L 1616 -.126 -.165.57.3.63. 6 3 1.26. 5 9 0. 1 1 SH M5 X 0.8 X 16 L - W TTER/L 1616 - T10.126 -.165.57. 3. 6 3. 6 3 1.26. 3 9. 1 1 SH M5 X 0.8 X 16 L - W TTER/L 19-2.071 -.095.71 5.0.75. 7 5 1.26. 7 2.063 SH M5 X 0.8 X 20 L - W TTER/L 19-3.095 -.126.71 5. 0.75. 7 5 1. 2 6. 7 2.083 SH M5 X 0.8 X 20 L - W TTER/L 19-3T09.095 -.126.75 5. 0.75. 7 5 1.26. 3 5. 0 8 3 SH M5 X 0.8 X 20 L - W TTER/L 19 -.126 -.165.69 5. 0.75. 7 5 1. 2 6. 5 9 0. 1 1 SH M5 X 0.8 X 20 L - W TTER/L 19 - T10.126 -.165.73 5. 0.75. 7 5 1.26. 3 9. 1 1 SH M5 X 0.8 X 25 L - W TTER/L 19-5.166 -.205.67 5.0.75.75 1. 6. 7 8 7.15 SH M6 X 1 X 20 L - W 5 TTER/L 19-5T12.166 -.205.71 5.0.75.75 1. 6. 7 2.15 SH M6 X 1 X 20 L - W 5 TTER/L 19-6.205 -.2.65 5. 0.75.75 1.6. 7 8 7.193 SH M6 X 1 X 20 L - W 5 TTER/L 19-6T12.205 -.2.69 5.0.75.75 1.6. 7 2. 1 9 3 SH M6 X 1 X 20 L - W 5 TTER/L 25. -2.071 -.095.96 6.0 1.00 1.00 1. 2 6. 7 2. 0 6 3 SH M5 X 0.8 X 25 L - W TTER/L 25. -3.095 -.126.96 6.0 1.00 1.00 1.26. 7 2.083 SH M5 X 0.8 X 25 L - W TTER/L 25. - 3T09.095 -.126.9 6. 0 1. 0 0 1. 0 0 1. 2 6. 3 5.083 SH M5 X 0.8 X 25 L - W Ordering example : 5 pcs. TTER 19-3 39

Turning and Grooving TOOLHOLDERS T T E R / L Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e Right hand shown W F L H B E Tm a x A (inch) (inch) (inch) (inch) Screw Wrench TTER/L 25. -.126 -.165.9 6. 0 1.00 1.00 1.26. 5 9 0.11 SH M5 X 0.8 X 25 L - W TTER/L 25. - T10.126 -.165.93 6. 0 1.00 1. 0 0 1.26. 3 9.11 SH M5 X 0.8 X 25 L - W TTER/L 25. -5.165 -.205.92 6.0 1.00 1.00 1.6. 7 8 7. 1 5 SH M6 X 1 X 25 L - W 5 TTER/L 25. -5T12.166 -.205.91 6.0 1.00 1. 0 0 1. 6. 7 2. 1 5 SH M6 X 1 X 25 L - W 5 TTER/L 25. -6.205 -.2.90 6. 0 1.00 1.00 1.6. 7 8 7. 1 9 3 SH M6 X 1 X 25 L - W 5 TTER/L 25. -6T12.205 -.2.89 6.0 1.00 1. 0 0 1.6. 7 2.193 SH M6 X 1 X 25 L - W 5 TTER/L 25. -8.2 -.327.88 6.0 1.00 1.00 1.65. 9 8. 2 3 2 SH M6 X 1 X 25 L - W 5 TTER/L 31.8-3.095 -.126 1. 2 0 7. 0 1. 2 5 1. 2 5 1. 2 6. 7 2. 0 8 3 SH M5 X 0.8 X 25 L - W TTER/L 31.8-5.165 -.205 1. 1 7 7. 0 1. 2 5 1. 2 5 1. 6. 7 8 7. 1 5 SH M6 X 1 X 25 L - W 5 TTER/L 31.8-8.2 -.327 1. 1 3 7. 0 1.25 1.25 1.65.98. 2 3 2 SH M6 X 1 X 25 L - W 5 TTER/L 38.1-3.095 -.126 1. 5 7. 0 1. 5 1. 5 1. 2 6. 7 5. 0 8 3 SH M5 X 0.8 X 25 L - W TTER/L 38.1 -.126 -.165 1. 7. 0 1. 5 1. 5 1. 2 6. 5 9 2. 1 1 SH M5 X 0.8 X 25 L - W TTER/L 38.1-5.165 -.205 1. 2 7. 0 1. 5 1. 5 1. 6. 7 8 7. 1 5 SH M6 X 1 X 25 L - W 5 TTER/L 38.1-6.205 -.2 1. 0 7. 0 1. 5 1. 5 1. 6. 7 8 7. 1 9 3 SH M6 X 1 X 25 L - W 5 TTER/L 38.1-8.2 -.325 1. 3 8 7. 0 1. 5 1. 5 1. 6 5. 9 8. 2 3 2 SH M6 X 1 X 25 L - W 5 TTER/L 3232-8.2 -.327 1.1 7. 0 1.26 1. 2 6 1.65. 9 8. 2 3 2 SH M6 X 1 X 25 L - W 5 Ordering example : 5 pcs. TTER 25. - 0

Turning and Grooving TOOLHOLDERS T T E R / L Use Insert T DC/ T SC: B18~B20 p a g e S t y l e T DJ/ T SJ : B21~B22 p a g e T DT: B2~B28 p a g e Right hand shown W F L Dm a x H B E A H1 H2 (inch) (inch) (inch) Screw Wrench TTER/L 10-20-2SH.039 -.12.36. 9 2. 7 9.39. 3 9.75. 0 6 1. 6 9. 0 8 CSTB T 1 5 TTER/L 12-2-2SH.039 -.12.. 9 2. 9. 7. 7.75.061. 7 5. 0 8 CSTB T 1 5 TTER/L 1-2-2SH.039 -.12.52. 9 2. 9.55. 5 5.75. 0 6 1. 7 5 CSTB T 1 5 TTER/L 16-32-2SH.039 -.12.60. 9 2 1. 2 6.63. 6 3.9.061. 8 3 CSTB T 1 5 Ordering example : 5 pcs. TTER 10-20-2SH 1

Face and External Grooving TOOLHOLDERS TG F R / L Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e T D FT: B31 p a g e Right hand shown Wm a x F L H B E Tm a x Ø Dm i n (inch) (inch) (inch) (inch) (inch) Screw Wrench TGFR/L 1616 - -.165.57.3.63. 6 3 1. 2 6.236 1.18 SH M5 X 0.8 X 16 L - W TGFR/L 19 - -.165. 6 9 5. 0.75. 7 5 1.26.236 1. 1 8 SH M5 X 0.8 X 20 L - W TGFR/L 19-6.166 -.2.65 5.0.75. 7 5 1. 6.236 2. 3 6 SH M6 X 1 X 20 L - W 5 TGFR/L 25. - -.165.9 6.0 1.00 1. 0 0 1. 2 6.236 1.18 SH M5 X 0.8 X 25 L - W TGFR/L 25. - 6.166 -.2.90 6. 0 1. 0 0 1. 0 0 1.6.236 2. 3 6 SH M6 X 1 X 25 L - W 5 Ordering example : 5 pcs. TGFR 1616-2

Face and External Grooving TOOLHOLDERS TG F P R / L Use Insert T DC/ T SC: B18~B20 p a g e T DJ/ T SJ : B21~B22 p a g e S t y l e T D XU: B23 p a g e T DT: B2~B28 p a g e T D FT: B31 p a g e Right hand shown Wm a x L H B E Tm a x Ø Dm i n (inch) (inch) (inch) (inch) Screw Wrench TGFPR/L 25. - -.165 6. 0 1.00 1. 0 0.71.189 1. 1 8 SH M5 X 0.8 X 25 L - W TGFPR/L 25. - 6.166 -.2 6. 0 1. 0 0 1. 0 0.87.189 2. 3 6 SH M6 X 1 X 25 L - W 5 Ordering example : 5 pcs. TGFPR 25.- 3

TOOLHOLDERS Deep Face Turning and Grooving T T F R / L Use Insert T D XU: S t y l e T DT: T D FT: B23 p a g e B2~B28 p a g e B31 p a g e Right hand shown W F L H B E Tm a x Ø Dm i n Ø Dm a x (inch) (inch) (inch) (inch) (inch) Insert Screw Wrench TTFR/L 25. - 30-3. 9 1. 3 8 TTFR/L 25. - 35-3. 3 9 1. 1 1. 5 7 TTFR/L 25. - 0-3. 1 1 8. 9 1. 5 0 1. 3 1. 9 7 T D F T - 3E R/L SH M 5 X0.8X 2 5 L - W TTFR/L 25. - 50-3 TTFR/L 25. - 60-3. 5 9 1. 7 3 1. 9 7 2. 1 3 3. 3 5 TTFR/L 25. - 30 - TTFR/L 25. - 0 - TTFR/L 25. - 50 - TTFR/L 25. - 60 -. 1 5 7 6. 0 1. 0 0 1. 0 0. 9 3 1. 2 6. 39. 87 1. 57 1. 26 1. 97. 59 1. 65 2. 36 2. 05 3. 35 T D F T - E R/L TDT T D X U E- 0. SH M5X 0.8X 2 5 L - W TTFR/L 25. - 60-6 1. 8 9 3. 3 5 TTFR/L 25. - 85-6. 2 3 6. 9 3 1. 6. 7 9 2. 8 7 5. 9 1 TDT 6 SH M6X1X 2 5 L - W 5 TTFR/L 25. - 150-6 5. 3 9. 8 Ordering example : 5 pcs. TTFR 25.-0-3

TOOLHOLDERS Deep Face Turning and Grooving TTFR/L - RN Use Insert T D XU: S t y l e T DT: T D FT: B23 p a g e B2~B28 p a g e B31 p a g e ( * ) Right hand shown W F L H B E Tm a x Ø Dm i n Ø Dm a x (inch) (inch) (inch) (inch) (inch) Insert Screw Wrench TTFR/L 25.-30-3 RN(*). 9 1. 3 8 TTFR/L 25.-35-3 RN(*). 3 9 1. 1 1. 5 7 TTFR/L 25.-0-3 RN(*). 1 1 8. 9 1. 5 0 1. 3 1. 9 7 T D F T - 3E R/L TTFR/L 25.-50-3 RN TTFR/L 25.-70-3 RN. 5 9 1. 73 2. 76 2. 52 3. 7 TTFR/L 25.-30- RN(*). 3 9. 8 7 1. 2 TTFR/L 25.-36- RN TTFR/L 25.-2- RN TTFR/L 25.-50- RN TTFR/L 25.-70- RN. 1 5 7. 9 3 6. 0 1. 0 0 1. 0 0 1. 5. 7 9 1. 10 1. 65 1. 3 1. 97 1. 65 2. 76 2.. 72 T D F T - E R/L TDT T D X U E- 0. S H M6X1X2 5 L - W 5 TTFR/L 25.-120- RN. 1 7. 8 7 TTFR/L 25.-60-6 RN 1. 8 9 3. 1 1 TTFR/L 25.-70-6 RN TTFR/L 25.-100-6 RN. 2 3 6. 8 9 1. 9 3. 9 8 2. 28 3. 9 3. 6 7. 09 TDT 6 TTFR/L 25.-180-6 RN 6. 6 1 1 5. 7 5 Ordering example : 5 pcs. TTFR 25.-30- RN 5

TOOLHOLDERS Deep Face Turning and Grooving T T F P R / L Use Insert T D XU: S t y l e T DT: T D FT: B23 p a g e B2~B28 p a g e B31 p a g e Right hand shown W L H B E Tm a x Ø Dm i n Ø Dm a x (inch) (inch) (inch) (inch) (inch) Insert Screw Wrench TTFPR/L 25. - 30-3. 9 1. 3 8 TTFPR/L 25. - 35-3. 3 9 1. 1 1. 5 7 TTFPR/L 25. - 0-3. 1 1 8 6. 0 1. 0 0 1. 0 0. 7 1 1. 3 1. 9 7 T D F T - 3E R/L SH M5X0.8X 2 5 L - W TTFPR/L 25. - 50-3 TTFPR/L 25. - 60-3. 5 9 1. 7 3 1. 9 7 2. 1 3 3. 3 5 TTFPR/L 25. - 30 - TTFPR/L 25. - 0 - TTFPR/L 25. - 50 -. 1 5 7 6. 0 1. 0 0 1. 0 0. 7 1. 7. 87 1. 57 1. 26 1. 97. 59 1. 65 2. 36 T D F T - E R/L T D X U E- 0. SH M5X0.8X 2 5 L - W TTFPR/L 25. - 60-2. 0 5 3. 3 5 TDT TTFPR/L 25. - 60-6 1. 8 9 3. 3 5 TTFPR/L 25. - 85-6. 2 3 6 6. 0 1. 0 0 1. 0 0. 8 7. 7 9 2. 8 7 5. 9 1 TDT 6 SH M6X1X2 5 L - W 5 TTFPR/L 25. - 150-6 5. 3 9. 8 Ordering example : 5 pcs. TTFPR 25.-60-6

External Undercutting TOOLHOLDERS TG E U R / L Use Insert S t y l e T DT: T D IT: B2~B28 p a g e B29~B30 p a g e Right hand shown W F L H B E Tm a x Ø Dm i n (inch) (inch) (inch) (inch) Screw Wrench TGEUR/L 1616-3. 1 1 8.76.3.63. 6 3 1. 1 8.11 1.26 SH M5 X 0.8 X 16 L - W TGEUR/L 1616 -. 1 5 7. 7 7. 3.63. 6 3 1.18.11 1. 2 6 SH M5 X 0.8 X 16 L - W TGEUR/L 19-3. 1 1 8.92 5.0.75. 7 5 1. 1 8. 1 1 1. 2 6 SH M5 X 0.8 X 20 L - W TGEUR/L 19 -. 1 5 7.92 5.0. 7 5. 7 5 1.18.11 1. 2 6 SH M5 X 0.8 X 20 L - W TGEUR/L 25. - 3. 1 1 8 1.11 6. 0 1. 0 0 1. 0 0 1.18.11 1. 2 6 SH M5 X 0.8 X 25 L - W TGEUR/L 25. -. 1 5 7 1. 1 2 6. 0 1. 0 0 1. 0 0 1. 1 8. 1 1 1. 2 6 SH M5 X 0.8 X 25 L - W TGEUR/L 25. - 6. 2 3 6 1. 1 6. 0 1. 0 0 1. 0 0 1. 3 8. 1 3 1. 3 SH M6 X 1 X 25 L - W 5 Ordering example : 5 pcs. TGEUR 19-7

ID Turning and Grooving TOOLHOLDERS T T I R / L Use Insert T D XU: S t y l e T D IT: T DA/ T SA: B23 p a g e B29~B30 p a g e B31 p a g e Right hand shown W R a n g e Ø d F L L1 H Tm a x Ø Dm i n A (inch) (inch) (inch) (inch) (inch) (inch) (inch) S e a l S e a l T h r e a d Screw Wrench TTIR/L 19-3C TTIR/L 20-3C.095 -.126 2.1-3.20. 75. 62 6. 5 1. 57. 33. 26. 98. 083 20 15. 8 160 0 9. 0 6. 5 25 2. 1 P L 2 0 M 6 SH M5 X 0.8 X 16 L - W TTIR/L 19 - C TTIR/L 20 - C.126 -.165 3.21 -.20. 75. 62 6. 5 1. 57. 33. 26. 98. 11 20 15. 8 160 0 9. 0 6. 5 25 2. 9 P L 2 0 M 6 SH M5 X 0.8 X 16 L - W TTIR/L 25. - 3C TTIR/L 25-3C.095 -.126 2.1-3.20 1. 00. 69 8. 0 1. 57. 5. 23. 98. 083 25 17. 5 200 0 11. 5 5. 8 25 2. 1 P L 2 5 R 1 / 8 SH M5 X 0.8 X 16 L - W TTIR/L 25. - C TTIR/L 25 - C.126 -.165 3.21 -.20 1. 00. 69 8. 0 1. 57. 5. 23. 98. 11 25 17. 5 200 0 11. 5 5. 8 25 2. 9 P L 2 5 R 1 / 8 SH M5 X 0.8 X 16 L - W TTIR/L 25. - 5C TTIR/L 25-5C.166 -.205.21-5.20 1. 00. 68 8. 0 1. 57. 5. 26 1. 26. 15 25 17. 3 200 0 11. 5 6. 5 31 3. 9 P L 2 5 R 1 / 8 SH M6 X 1 X 25 L - W 5 TTIR/L 31.7 - C TTIR/L 32 - C.126 -.165 3.21 -.20 1. 25. 82 10. 0 2. 36. 55. 26 1. 26. 11 32 20. 8 250 60 1. 0 6. 5 31. 29 P L 3 2 R 1 / 8 SH M5 X 0.8 X 16 L - W TTIR/L 31.7-5C TTIR/L 32-5C.166 -.205.21-5.20 1. 25. 82 10. 0 2. 36. 55. 26 1. 26. 15 32 20. 8 250 60 1. 0 6. 5 31 3. 9 P L 3 2 R 1 / 8 SH M6 X 1 X 25 L - W 5 TTIR/L 31.7-6C TTIR/L 32-6C.205 -.2 5.21-6.20 1. 25. 82 10. 0 2. 36. 55. 26 1. 26. 193 32 20. 8 250 60 1. 0 6. 5 31. 9 P L 3 2 R 1 / 8 SH M6 X 1 X 25 L - W 5 TTIR/L 31.7-8C TTIR/L 32-8C.2 -.327 6.21-8.30 1. 25. 8 10. 0 2. 36. 57. 26 1. 6. 232 32 21. 3 250 60 1. 5 6. 5 37 5. 9 P L 3 2 R 1 / 8 SH M6 X 1 X 25 L - W 5 TTIR/L 38.1-8C TTIR/L 0-8C.2 -.327 6.21-8.30 1. 50 1. 02 12. 0 2. 56. 70. 26 1. 65. 232 0 25. 8 300 65 19. 0 6. 5 2 5. 9 P L 0 R 1 / 8 SH M6 X 1 X 25 L - W 5 TDA 6 Insert is only available to TTIR/L 32-6C Ordering example : 5 pcs. TTIR 19-3C 8

Internal Undercutting TOOLHOLDERS TG I U R / L Use Insert S t y l e T D IT: B29~B30 p a g e Right hand shown W Ø d F L L 1 H Tm a x Ø Dm i n (inch) (inch) (inch) (inch) Screw Wrench TGIUR/L 19-3. 1 1 8.75. 5 0 6.5. 3 5. 1 1 1. 5 0 SH M5 X 0.8 X 12 L - W TGIUR/L 19 -. 1 5 7. 7 5. 5 1 6. 5.35.11 1.50 SH M5 X 0.8 X 16 L - W TGIUR/L 25. - 3. 1 1 8 1.00. 5 8 8.0 1.57. 5.11 1. 5 0 SH M5 X 0.8 X 16 L - W TGIUR/L 25. -. 1 5 7 1.00. 5 9 8.0 1.57.5.11 1. 8 1 SH M5 X 0.8 X 16 L - W TGIUR/L 25. - 6. 2 3 6 1.00. 6 0 8. 0.5.11 1. 8 1 SH M6 X 1 X 16 L - W 5 Ordering example : 5 pcs. TGIUR 25.-6 9

TOOLHOLDERS External Turning for Aluminum Wheel Machining T T E R / L Use Insert S t y l e T DA/ T SA: B32 p a g e Right hand shown W B L F E A H H 2 Tm a x (inch) (inch) Screw Wrench TTER/L 25. - 6 TTER/L 25. - 8 Ordering example : 5 pcs. TTER 25.-6. 236 1. 00 6. 00. 90 1. 61. 191 1. 00 7. 79. 315 1. 00 6. 00. 805 1. 83. 230 1. 00 7. 79 SH M6 X 1 X 25 L - W 5 TOOLHOLDERS Internal Turning for Aluminum Wheel Machining TG I U R / L Use Insert S t y l e T DA/ T SA: B32 p a g e Right hand shown W Ø d F L L 1 H Ø Dm i n Tm a x (inch) (inch) (inch) (inch) Screw Wrench TGIUR/L 38.1-6-15A TGIUR/L 38.1-8-15A. 2 3 6. 3 1 5 Ordering example : 5 pcs. TGIUR 38.1-8-15A 1.5. 71 12 1. 97. 699 6. 30 1. 968 1. 5. 69 12 2. 36.699 6. 30 3. 27 SH M6 X 1 X 25 L - W 5 50

USER GUIDE Presentation of the System The User s Guide presents basic information that will enable the user to derive full benefit from the advantage. enables multifunctional operations in one system : Deep grooving Cut off and grooving Shallow grooving Turning and grooving Precision grooving and recessing Face grooving and face turning Undercutting and recessing Parting Cut off Inserts Accuracy with good repeatability Molded chipformer Top and bottom prism hold insert firmly and accurately in right place TDJ/C-unique, double-ended insert for grooving and cut off TIMJ/C, TSJ/C-unique, single-ended insert for deep grooving and cut off TDT-unique, double-ended insert for side turning and grooving TIPV-unique, single-ended insert for side turning and grooving TDA-unique, double-ended insert for aluminum wheels machining Turning & Grooving Blades Simple, accurate and rapid indexing Top and bottom seated insert alignment No additional spare parts Uses standard tool blocks Integral Shank Tool Simple, accurate and rapid indexing Top and bottom seated insert alignment Stable support against side forces No additional spare parts Standard shank dimensions Face Turning Grooving & Grooving & Turning 51

USER GUIDE Advantage of the T-Clamp is available as either double-ended or single ended insert for maximum economy. Multifunctional use. -Right-hand and left-hand turning, grooving and parting with a single tool. T-Clamp replaces one or more ISO tools. -Reduces number of tools per operation. -Fewer insert and toolholder types in inventory. Shorter cycle time -Shorter setup with less downtime. -Reduces requirement for turret indexing. Less machining time -The excellent surface finish from rough turning may eliminate finish turning. System vs. Standard ISO System System Standard ISO System Precision Grooving & Cut off Grooving: Right and Left Hand Turning Facing Grooving & Cut off Right Hand Turning Left Hand Turning Facing 52

USER GUIDE - Cut off and Gro o v i n g Selecting Inserts For a proper match of insert and cutting condition, the following variables must be considered. Width of cut (width of insert) Chipformer style Lead angle Corner radii Carbide grade Width of Cut (WOC) and Depth of Cut (DOC) In selecting WOC, the main factor to consider is the required DOC. The ratio DOC=8xWOC ~ is of practical use for alloy steel of average machinability : for example.118inch WOC insert TSC3 to cut off a ø1.89inch solid bar 90 Mounting It s very important that the insert is mounted at 90 to the centerline of the workpiece in order to obtain perpendicular surfaces and reduce the risk of vibration. A neutral insert with 0 lead angle increases DOC capacity Insert Support A Self-Clamp tool (Blade) is recommended for deep radial machining. A screw clamp holder is recommended for axial and small DOC machining. Workpiece machinability The workpiece material affects all of the above factors. Machine power and setup rigidity Excessive WOC on a light-cut will yield vibration and may even stop spindle rotation. Setup Blade or Holder Size To minimize risk of vibration and deflection, always choose : Blade or toolholder with smallest possible overhang Toolholder with maximum shank dimension Blade or holder with maximum width Also recommend that Tmax is less than Blade height(b) Cut off as close to chuck as possible. On new applications, machine first in the low or middle range of recommended speeds and feeds. 53

USER GUIDE - Cut off and Gro o v i n g Machining Consistency of speed and feed improves performance. Apply coolant abundantly (excluding Ceramic AB30). Secure insert into clean pockets. Cutting forces on soft workpiece materials may be insufficient to push insert well into pocket. Tap insert into place using a plastic hammer. On a conventional lathe, lock the carriage to prevent axial motion during cut off. Insertion and Extraction of Insert Insert Clamping Insert mounting By hand or with plastic hammer. Usage Replace worn inserts promptly. The price of a new one is much less than the risk of damage from continuing with one that is worn out. Replace blades having worn or damaged pockets. Never try to repair damaged pockets. Insert Extraction With extractor key. Chipbreaker The chipbreaker s function is to narrow the chip- it occurs near the cutting edge in the region of high temperature. Producing chips that are narrower than the groove gives the following advantages : Eliminates frictions with groove walls Prevents chip overload Permits higher feeds Produces unscratched surfaces, eliminating additional facing. Insert Clamping EDG-33B Extractor for TGB Blades Curling the chips into compact spirals or breaking them short is ideal for easy disposal. Curling is affected by the chipbreaker type and the machining conditions. Facilitate ease of cut by selection of an appropriate chipformer for the specific application. 5 2

USER GUIDE - Cut off and Gro o v i n g Selection of Chipbreakers C Type J Type First choice for hard materials and tough applications. For general application on steel, alloy steel and stainless steel. Medium-to-high feeds. First choice for soft materials, parting of tubes, small diameters and thin-walled parts. Low forces and smaller burrs. Improved straightness. Low-to-medium feeds. Recommended feed range as a function of insert width Material ; SAE10 (HB20) Recommendations are for neutral inserts ; for R/L inserts, reduce feeds by 20-0% Feed (ipr). 016. 01. 012. 010. 008. 006. 00. 0 0 7. 0 1 0. 0 1 2. 0 1. 0 1 6 Feed (ipr). 016. 01. 012. 010. 008. 006. 00. 0 0 5. 0 0 6. 0 0 7. 0 0 8. 0 0 9. 0 0 2. 0 0 2. 0 0 0 8. 079. 118. 157. 197. 236 Width(inch). 0 0 0 8. 0 7 9. 1 1 8. 1 5 7. 1 9 7. 2 3 6 Width(inch) C J Workpiece Materials Alloy Steel Austenitic High-Temp Nonferrous Stainless Alloys Materials Cast Iron High C C C C Brass C Feed Low J J J Titanium J Aluminium 55

USER GUIDE - Cut off and Gro o v i n g Practical Troubleshooting 1. TO REDUCE BURR On CNC reduce feed by 50% on approaching center when stub diameters = ~ WOC. Check center height of cutting edge. Use insert with lead angle. If 0 lead angle must be used for whatever reason, apply narrow WOC. Apply a supporting part-catcher (or adjust concentricity). For hollow bars, it is better to machine chamfers using ID boring tool prior to parting operation. (See picture) 1 2 2. TO IMPROVE SURFACE FINISH Increase cutting speed. Use neutral inserts. Select chipformer that provides optimum chip control. Use coated carbide. Improve coolant application Eliminate chatter. 3. TO IMPROVE FLATNESS Check inserts and replace any that show wear or chipping at corners. Use neutral inserts. Use as large a blade as possible, i.e., TH101 32 instead of TH101 26. Increase blade thickness and insert width. Minimize blade overhang. Check alignment and perpendicularity of tool to machine axis. Optimize workpiece chucking. Lock the carriage on manually operated lathes. Apply coolant abundantly (excluding Ceramic AB30). Reduce feed.. TO IMPROVE CHIP CONTROL Replace worn inserts. Choose a more appropriate chipbreaker. Use a neutral insert. Check alignment and perpendicularity of tool to machine axis. Apply coolant abundantly. Increase feed. At initial groove depth, interrupt feed momentarily to let the chip enter slot. 56

USER GUIDE - Cut off and Gro o v i n g 5. TO ELIMINATE CHATTER Cut off as close to chuck as possible. Minimize blade overhang. Improve chucking and monitor tool setup. Change the RPM. Increase the feed. Lock the carriage on manually operated lathes. 6. TO PREVENT CHIPPING OF CUTTING EDGE Use appropriate carbide grade and geometry. Use insert with larger corner radii. Prevent chatter. Prevent feed-snap at end of cut. A sturdy backlash eliminator must function in resilient feed-systems. Fluid in hydraulic systems must be 100% free of air. Prevent or reduce built-up edge. To identify built-up edge as the cause of chipping, interrupt the cut and check edge. 7. TO PREVENT OR REDUCE BUILT-UP EDGE Use appropriate carbide grade and geometry. Increase cutting speed. Apply coolant abundantly. An oil-base coolant is recommended. 8. PARTING ON ECCENTRIC TUBES Inserts with a lead angle are usually recommended for tubes. However, the combination of eccentric bore and machine resiliency may increase feed-snap on breakthrough and damage the cutting edge. Changing to a 8 lead angle insert will moderate breakthrough. Alternatively, inserts with an extra negative rake-land that strengthens the cutting edge are available on request. 57

USER GUIDE - Cut off and Gro o v i n g Nominal Cutting Speed(SFM) for Cut off & Grooving - Chipbreaker ➀ Width Grade Feed(ipr) Workpiece Material Carbon 0.2 %C Steel 0.5 %C Alloy Steel 0.83 %C Martensitic Stainless Steel Austenitic Carbon Cast Steel Alloy Brinell Hardness 150 190 250 200 200 ~ 250 275 ~ 325 325 ~ 375 375 ~ 25 175 ~ 225 275 ~ 325 375 ~ 25 135 ~ 175 150 150 ~ 200 200 ~ 250 250 ~ 300 ➀ For TIMJ chipbreaker reduce feed by approximately 30% TT7200 TIMC 1.6 2, 2. 3.8, 5, 6 2 3.8, 6 60 60 25 0 10 395 360 360 330 360 360 330 310 310 280 295 295 260 230 230 200 150 150 25 360 330 35 35 295 165 165 25 25 395 0 0 10 260 260 250 230 230 215 90 90 25 60 60 380 10 10 280 10 10 280 360 360 200 35 35 180 260 260 180 180 90 330 230 360 360 165 165 0 0 360 60 60 395 280 280 230 215 215 200 Cutting Speed (SFM) 30 30 360 395 395 330 360 360 295 360 360 295 310 310 230 295 295 215 230 230 130 165 165 20 05 330 295 295 165 165 35 35 110 395 395 330 235 235 200 180 180 165 TT5100.002.003.005.002.00.008.00.008.012.00.008.012.016.002.00.008.00.008.012.00.008.012.016 560 60 25 510 30 380 0 360 0 360 310 360 310 250 35 295 260 230 180 150 60 330 260 10 35 180 130 90 25 50 0 330 330 280 280 25 590 525 0 395 50 75 395 330 75 395 330 75 395 330 250 395 35 280 200 380 330 260 260 250 200 260 165 525 25 0 395 295 195 165 525 60 575 90 380 295 35 301 215 115 295 260 165 75 395 360 25 360 330 380 310 260 380 310 260 310 260 250 295 25 200 230 200 165 130 75 390 280 35 295 210 265 115 25 380 260 60 380 280 280 230 230 215 90 0 380 360 60 395 330 295 395 330 280 230 395 330 280 230 330 295 260 200 280 250 230 150 230 215 165 165 150 90 60 360 380 330 25 180 130 60 390 310 90 395 330 250 295 260 180 260 230 130 Iron-base Alloys (TIMC inserts) V57.A286 Incoloy 800, 801 Austenitic Stainless Steel 302, 303, 30, 310, 316, 321, 37 Martens, Stainless Steel 03, 05, 10, 20, 30, etc. 17-PH 17-7PH Maraging Steel, Maraging 120, 180, 200, 250, 300, 350 120, 180 Workpiece Material 200, 250, 300, 350 Brinell Hardness solution treated 81Rb Solution aged 2-3Rc Annealed 135-175HBN Annealed 135-175HBN Q & T 28-35Rc Solution treated 28-35Rc Solution aged 36-0 Rc Annealed 26-3Rc Maraged 38-5Rc Maraged 50-52Rc Feed Cutting Speed Carbide (ipr) (SFM) (Grade).006 -.008.00 -.006.006 -.008.00 -.006.00 -.006.00 -.006.00 -.006.00 -.006.00 -.006.00 -.006.00 -.006.00 -.006.006 -.008.00 -.006.00 -.006.00 -.006.002 -.00 98-130 82-98 82-115 65-80 395-25 590-625 655-690 360-39 25-60 360-39 25-60 195-260 295-330 360-390 165-200 197-230 65-100 P0A K10 P0A K10 TT5100, P0A TT7200, TT5100, P0A P0A P0A TT7200, TT5100, P0A P0A P0A TT7200, P0A P0A TT7200, P0A P0A TT7200, P0A K10 58

USER GUIDE - Cut off and Gro o v i n g Recommended Cutting Conditions Recommendations given are normal machining conditions. If excessive wear occurs, select an insert in a harder grade. If chipping or breakage occurs, select an insert in a tougher grade. The high end of the cutting speed recommendations given here are for insert widths of.118inch and over at low-to-medium feeds. For smaller insert widths or machining at high feeds, choose a lower cutting speed. Optimal grade selection depends also on workpiece material, diameter and rigidity of the system. Recommended Conditions - Materials 0.2%C C a r b o n 0. 5 % C S t e e l 0. 83 % C Alloy Steel Cast Steel, Carbon Alloy M a r t e n s i t i c Stainless Steel A u s t e n i t i c Hardness Brinell HB 150 190 250 200 200 ~ 250 275 ~ 325 325 ~ 375 375 ~ 25 150 150 ~ 200 250 ~ 300 175 ~ 225 275 ~ 325 375 ~ 25 135 ~ 175 G r a d e G r a d e G r a d e T T 8020 T T 7220 T T 9030 Tougher Cutting Speed (sfm) 360 ~ 560 330 ~ 90 280 ~ 60 280 ~ 60 230 ~ 60 200 ~ 360 165 ~ 330 130 ~ 200 260 ~ 30 230 ~ 390 200 ~ 330 330 ~ 90 230 ~ 380 200 ~ 330 200 ~ 30 Harder 59

USER GUIDE - Cut off and Gro o v i n g Recommended Cutting Speed with ISO K Grades - Cast Iron and Nonferrous Materials Nickel - base Alloys Materials Hardness Brinell HB Grade K10 Cutting Speed (sfm) Materials Hardness Brinell HB Grade K10 Cutting Speed (sfm) Carbon Steel Low tensile, grey High tensile, grey, alloy 180 250 200 ~ 265 165 ~ 230 Astroloy, Rene1 Udimet 500, 700 Sol 20 ~ 300 S & A 310 ~ 00 65 ~ 100 50 ~ 80 Malleable Iron Short-Chipping Long-Chipping 110 ~ 15 200 ~ 250 230 ~ 330 230 ~ 295 Inconel W, X, 702, 718 M252, Waspaloy Sol 20 ~ 300 S & A 00 ~10 50 ~ 100 50 ~ 80 Nodular Iron Ferritic Pearlitic Chilled Cast Iron Lead Alloy 160 250 00 110 200 ~ 280 150 ~ 250 50 ~ 80 90 ~ 720 Hastelloy Inconel 600 Annealed 90~100 HRB Cold drawn 250 ~ 330 80 ~ 130 65 ~ 115 Bronze Brass, Red brass 100 390 ~ 590 TD2 Stress relieved 300 165 ~ 210 Phosphor-bronze 100 330 ~ 60 Magnesium 0 ~ 90HRB 820 ~ 885 Aluminum 0 ~ 90HRB 820 ~ 175 Titanium - base Alloys Cobalt - base Alloys Materials Hardness Brinell HB Grade K10 Cutting Speed (sfm) Materials Hardness Brinell HB Grade K10 Cutting Speed (sfm) Ti5Al - 2.5Sn Annealed 310 ~ 370 130 ~ 165 HS21, HS31, HS36 As Cast 90 ~98 HRB 65 ~ 80 Ti6Al - V Annealed 310 ~ 370 S & A 370 ~ 10 130 ~ 165 80 ~ 130 L605 Sol 90 ~98 HRB S & A 280 ~330 65 ~ 80 50 ~ 65 Ti6Al - 6V - 2Sn Annealed 380 ~ 20 100 ~ 135 Stellite 6 370 ~ 20 50 ~ 65 Ti7Al - MO Ti8AlMO - 1V S & A 380 ~20 100 ~ 130 S&A-Solution and aging Sol-Solution treatment TiA55 Ti75A Ti10A Annealed 110 ~175 Annealed 300 ~350 60 ~ 525 130 ~ 165 60

USER GUIDE - Tu rning and Gro o v i n g Chipbreaker Style : T Chipbreaker A type of chipbreaker is available for turning and grooving of steel, alloy steel and stainlesssteel - the T type-. Operating range in Turning as a function of insert Width T Type Workpiece : SAE 105 (C5) Cutting Speed : Vc=330 ~ 590sfm TDT-6.00E-0.80 TDT-5.00E-0.80 TDT-.00E-0.80 TDT-3.00E-0. Feed f(ipr) Reduce 20~30% of cutting speed for Internal & Face machining Toolholder or Blade Size Machining Conditions Definition To minimize risk of vibration and deflection always choose : Toolholder or Blade with smallest possible overhang. Toolholder with maximum shank dimension. 90 Mounting It s very important that the insert is mounted at 90 to the center line of the workpiece in order to obtain a perpendicular surface and reduce the risk of vibration. Grooving Vc-Cutting Speed (sfm) Tmax -Maximum Depth (inch) f -Feed in Radial Direction (ipr) Turning Vc -Cutting Speed (sfm) ap -Depth of Cut (inch) f -Feed in Lateral Direction (ipr) 61

USER GUIDE - Tu rning and Gro o v i n g Selecting Inserts INSERT WIDTH Insert width strongly affects strength. For most efficient machining, selectthe widest possible insert. Chipbreaking range depends on insert width. A narrower width means betterchipbreaking atlower feed rates. Wider inserts and stronger blades require higher forces and higher feed rates to achieve a frontal clearance angle. CORNER RADII ; LATERAL TURNING Choose large corner radii for longer tool life. Choose small corner radii to reduce cutting load and lower feed with narrow inserts Larger radii ; Smaller side forces Small radii ; Strong side forces TURNING FEED TT7200 Feed depends on chipbreaking range of the insert. Maximum feed depends on insert width and is a function of maximum load. TT5100 High feed with too small corner radii may reduce tool life. Maximum feed should not exceed the corner radii. For better chip formation in grooving, feed can be interrupted at small intervals. Maximum Feed: fmax= W x.075 DEPTH OF CUT Minimum depth of cut equals the corner radii Maximum depth of cut depends on maximum possible load. Depth of cut depends on chipbreaking range. Large depth of cut causes larger deflection and larger frontal clearance. Maximum Depth of Cut : apmax= W x.8 With small depth of cut, deflection and frontal clearance may be too small. 62

USER GUIDE - Tu rning and Gro o v i n g Principle of Turning With The clearance angle iss a function of the side cutting forces and is not constant as is the case with ISO inserts. Clearance angle between the insert and the workpiece The deflection is influenced BY : Feed : f Depth of cut : ap Overhang : T Width of Insert Support : A Cutting speed : Vc Workpiece Material When these factors are properly applied, the insert ( ) creates a Wiper action providing excellet part surface quality and tolerance Finishing Operation : Diameter Compensation A compensation factor for the final diameter must be used in the final machining operation. After the groove to the desired diameter, the machining direction changes to longitudinal turning. It is at this point when the deflection occurs. If machining continues without tool compensation, corner A will penetrate the workpiecs as a result of the deflection phenomenon. (See picture) This will result in two different diameters ød1 from the grooving operation and ød2 from the turning operation. The difference between ød1 and ød2 is the change in diameter, designated at Delta. Tool compensation factor is calculated as shown : ød1-ød2 = 2 2 B a d Using the compensation factor will eliminate the difference in part diameter. Follow this simple procedure during machining. 1. Groove to the final diameter. 2. Pull the tool back, a distance equal to the value of /2 3. Continue the finish turning operation 63

USER GUIDE - Tu rning and Gro o v i n g Examples Of Compensation Values Based On Specific Work Materials L E G E N D =.030 D.O.C. =.050 D.O.C. =.070 D.O.C. F.P.R. F.P.R. The diagrams show experimental results for specific machining conditions. These are sample values that will vary with different workpiece materials and different holder types. Recommendation: Measure the value for your finishing operation in a short test using your selected finishing conditions. Do not run your test using the final diameter. Feed f(ipr) Feed f(ipr) Feed f(ipr) Multifunction Operations B a d Not Recommended The T-Clamp tools are multifunctional tools, able to operate in a sequence of grooving and turning modes. Moving from turning to grooving requires consideration of the basic T-Clamp principle, thereby eliminating the possibility of insert breakage. In this situation one must release the side deflection which is necessary in turning, but not recommended in grooving. 6

USER GUIDE - Tu rning and Gro o v i n g Machining a Radius or a Chamfer B a d The machining of a corner with a radius or a chamfer larger than the radius of the insert always requires the combination of movement in two directions. Problems, such as insert breakage, result when this combined operation is used while the insert is plunged into the workpiece with material on all sides. Insert breakage is caused by forces acting simultaneously in two different directions F1 and F2 as shown. Recommended procedure to optimize machining and eliminate insert breakage Prior move Actual move 1 2 3 Machining Between Walls One of the most important advantages of the T-Clamp system is the ability to machine between walls. To achieve the best results, the following sequence is recommended. Leave steps near a wall. Don t arrive to the same Z value!!! Roughing 1 Roughing 2 Finishing 3 Z value=.008~.012inch Finishing Finishing 5 Finishing 6 65

USER GUIDE - Tu rning and Gro o v i n g Eliminating a Hanging Ring When turning at the end of a bar or toward a recess between two walls, a Hanging Ring may be formed. How to eliminate the unwanted Hanging Ring Roughing (Incorrect) Roughing (Correct) Finishing (Correct) Optimizing Internal Machining Toolholder Overhang Efficient use of Insert corners 1. The first pass uses one corner for roughing 2. The other corner is used on the return path for semifinishing or finishing L max. 3D Improving Internal Turning in a Blind Hole Internal turning in a blind hole brings about the problem of chip exit. When the tool reaches the rear side wall, chips may be caught between the wall and the insert. This may cause insert breakage. Two solutions follow that can eliminate this problem. First Solution 1. Start by grooving at the rear wall 2. Continue by turning from the inside toward the outside. Second Solution Start by grooving at the rear wall. Pull the tool back to the outside. Turn the final diameter from outside toward the groove. 66

USER GUIDE - Tu rning and Gro o v i n g Surface Quality ELIMINATING GRINDING OPERATIONS Turning with T - C l a m p Tools provides a surface quality far superior to anything normally possible when turning with standard ISO tools. In fact, turning with T - C l a m p tools can produce a surface quality comparable to grinding. vs ISO TURNING INSERTS Feed f(ipr) Calculation of Required Machine Power Turning Grooving / Parting Face Grooving P = Kc ap f Vc Kc W f Vc Kc W f Vc [HP] 5 10 3 P = [HP] 5 10 3 P = [HP] 5 10 3 Turning Grooving / Parting Face Grooving P = Kc ap f Vc Kc W f V c Kc W f V c [kw] 61 10 3 P = [kw] 61 10 3 P = [kw] 61 10 3 Where : Kc - Specific Cutting Forces(N/mm 2 ) turning values could be used. - Efficiency(.8) 67

USER GUIDE - Tu rning and Gro o v i n g Recommended Machining Conditions - LOW CARBON, MEDIUM ALLOY STEEL (120 ~ 220 BHN) ALLOY & HARDENED STEEL (180 ~ 300 BHN) m/min m/min 30 60 90 120 150 30 60 90 120 150 TT6030 TT6030 TT5100 TT5100 1 0 0 2 0 0 3 0 0 0 0 5 0 0 SFM 1 0 0 2 0 0 3 0 0 0 0 5 0 0 SFM GREY, MALLEABLE AND NODULAR IRON (10 ~ 260 BHN) m/min 30 60 90 120 150 180 ALLOY & HARDENED STEEL (180 ~ 300 BHN) m/min 30 60 90 120 150 K10 TT6030 TT5100 TT6030 TT5100 1 0 0 2 0 0 3 0 0 0 0 5 0 0 6 0 0 SFM 1 0 0 2 0 0 3 0 0 0 0 5 0 0 SFM LOW CARBON, MEDIUM ALLOY STEEL (120 ~ 220 BHN) ALLOY & HARDENED STEEL (180 ~ 300 BHN) m/min m/min 30 60 90 120 150 75 150 300 600 900 K10 K10 TT6030 TT6030 1 0 0 2 0 0 3 0 0 0 0 5 0 0 SFM 2 5 0 5 0 0 1 0 0 0 2 0 0 0 3 0 0 0 SFM Normal Operating Range Shown in Light Blue 68

USER GUIDE - Tu rning and Gro o v i n g Recommended Machining Conditions - Turning with TDT-E Type Inserts TT5100 ( P 2 0 - P 0 ) and TT7220 ( P 2 5 - P 5 ) Coated Carbide Grade S t e e l INSERT 3.00E-0..00E-0.8 5.00E-0.8 6.00E-0.8 6.00E-1.20 Feed (ipr) Materials Hardness Brinell HB.00.006.010.006.010.016.010.016.020 Cutting Speed (sfm).010.016.021.012.018.022 Carbon Steel Alloy Steel 0.2%C 0.5%C 0.83%C Mart Stainless Steel Aust Carbon Cast Steel Alloyed 150 190 250 200 200-250 275-325 325-375 375-25 175-225 275-325 135-175 150 150-200 200-250 60 590 60 590 50 25 560 510 10 560 510 10 525 80 395 90 0 380 380 295 165 230 195 100 50 80 395 10 380 295 0 395 330 25 380 330 30 295 250 310 280 195 690 570 360 655 525 330 625 90 295 625 90 295 610 80 280 590 60 260 10 250 165 280 200 130 560 80 310 25 380 280 90 10 330 0 380 260 360 295 250 330 250 210 610 0 30 560 395 260 50 30 250 50 330 250 525 310 230 90 295 195 360 210 165 200 165 110 590 0 295 90 360 280 525 380 280 10 295 250 330 280 210 280 230 195 60 0 30 590 395 260 560 30 250 560 330 250 50 310 230 525 295 195 380 230 165 260 200 130 610 25 260 525 360 230 525 380 280 25 310 230 360 295 210 295 260 195 655 90 10 590 10 330 90 360 280 560 360 280 50 30 260 525 330 230 360 260 195 280 210 165 50 60 295 90 380 280 50 295 280 0 30 260 395 310 250 30 260 230 Turning with TDT-E Type Inserts K 1 0 Uncoated Carbide Grade Cast Iron and Nonferrous Materials Materials INSERT Malleable Short-chiping Iron Long-chiping Cast Low tensile, grey Iron High tensile, grey, alloy Noudular Ferritic Iron Pearlitic Chilled Cast Iron Bronze-brass-alloys: Lead alloy Brass, red brass Phosphor-bronze Aluminum alloys: Non-heat treatable Heat treatable Aluminum alloys, cast Magnesium Electrolytic copper TDT-E Hardness Brinell HB 110-15 200-250 180 250 160 250 00 600 120-200 80-150 60-110 85-110 150-200 30-80 80-120 0-60HRB 60-90HRB 50-85 K10 Feed (ipr).00.006.008 Cutting Speed (sfm) 60 360 295 0 30 260 525 30 260 395 295 210 30 330 230 10 295 210 65 50-50 35-30 30 230 590 560 50 60 0 10 330 310 295 780 720 650 2820 2725 2625 1085 1050 985 1150 1085 985 1130 1050 920 820 790 755 30 10 395 69

USER GUIDE - Tu rning and Gro o v i n g Recommended Machining Conditions - Turning with TDT-E Type Inserts TT7220 ( P 2 5 - P 5 ) & TT5100 ( P 2 0 - P 0 ) Coated Carbide Grade, K 1 0 Uncoated Carbide Grade Iron-Base Alloys Materials TT7220(P25 - P5) TT5100(P20 - P0) TT7220(P25 - P5) K10 Feed (ipr) Commercial Designation V 57, A286 Hardness Sol 81 HRB.00.006.010 - - -.008.012.016 Cutting Speed (sfm) - - -.00.006.008 165 110 80 Incoloy 800, 801 S & A 2-3HRC - - - - - - 180 130 100 Austenitic Stainless Steel 302, 303, 30, 310 316, 321, 37 Martensitic Stainless Steel Annealed 135-175 HB Annealed 135-175 HB 295 280 250 0 10 330 180 165 150 180 165 150 210 180 165 230 215 195 03, 05, 10, 20 30, etc. Q & T 28-35 HRC 330 295 280 165 150 130 - - - 17- PH Sol 28-35 HRC 0 25 10 330 310 295 - - - 17-7 PH S & A 36-0 HRC 260 250 230 180 165 150 - - - Maraging Steel 120, 180, 200, 250 300, 350 Grade 120, 180 Grade Annealed 26-3 HRC Maraged 38-5 HRC 25 10 395 230 210 195 295 280 260 165 150 135 - - - - - - 200, 250, 300 350 Grade Maraged 50-52 HRC - - - - - - 100 85 - Sol-Solution S&A-Solution and Aging Q&T-Quenched and tempered Recommended Machining Conditions for Ceramic Insert Materials Grooving Turning Vc (sfm) Cast Iron F (ipr) Vc (sfm) High Hardened Steel F (ipr) Above condition is adapted to TDT E-0.T CE 600 ~ 800 0.1 ~ 0.2 Not Recommended 600 ~ 800 0.1 ~ 0.2 250 ~ 350 0.08 ~ 0.20 70

USER GUIDE - Tu rning and Gro o v i n g Recommended Machining Conditions - High-Temp Alloys K10 Uncoated Carbide Grade Titanium - Base Alloys Materials Commercial Designation Ti6-2 - - 2 Ti6Al - V Ti6Al - 6V - 2Sn Ti7Al - Mo Ti8Al - 1Mo - 1V Hardness Annealed 32-38 HRC Annealed 32-38 HRC S & A 38-2 HRC Annealed 3-38 HRC S & A 0 - HRC Turning Grooving and Undercutting K10 Feed (ipr).00.006.008.002.00.006 Cutting Speed (sfm) 180 165 150 165 150 130 165 130 110 165 150 130 130 110 100 130 100 80 150 130 110 150 130 110 130 110 100 130 110 100 TiA55 Ti75A Annealed 110-175 HB 525 510 90 525 90 60 Ti10A Annealed 30-36 HRC 165 150 130 165 150 130 Nickel - Base Alloys Materials Commercial Designation Astroloy, Rene 1 Udimet 500, 700 Inconel W, X, 702, 718 M 252, Waspalloy Hastolloy B, C, X Inconel 600 TD 2 Hardness Sol 20-30 HRC S & A 32-2 HRC Sol 20-30 HRC S & A 0-2 HRC Annealed 90-100 HRB Cold drawn 2-3 HRC Stress relieved 30 HRC K10 Feed (ipr).00.006.008.002.00.006 Cutting Speed (sfm) - 80 65 100 80 65-65 50 80 65 50-80 65 100 80 65-65 50 80 65 50-100 80 110 100 80-80 65 100 80 65-215 195 210 195 165 Cobalt - Base Alloys Materials Commercial Designation HS 21, HS 31, HS 36 Hardness As cast 20-30 HRC K10 Feed (ipr).00.006.008.002.00.006 Cutting Speed (sfm) - 65 50-65 50 L 605 Sol 90-98 HRB S & A 28-3 HRC - 85 65-65 50-85 65-65 50 Stellite 6 39-3 HRB - 50 35-50 35 Sol-Solution S&A-Solution and Aging 71

USER GUIDE - Face Machining Tool Selection Follow three recommendations to choose the right tool for high performance Choose the widest possible insert and tool, according to the cutting width and geometry to be machined. Choose the shortest tool blade overhang, according to the maximum depth required. Choose the tool range with the largest diameter depending on the initial grooving diameter required in the application. Tool Adjustment Prior to machining, check and adjust the following tool positions Checking the cutting-edge height at center line. Machine in light turning down to center, and check for bur. Check parallelism of cutting edge and the machined surface. Correct position can guarantee good surface quality when face turning in both directions. 72

USER GUIDE - Face Machining Optimizing the Machining Procedure For roughing Basic steps in face turning operation procedure for Roughing operation with T-Clamp Ultra Plus tools Step1 Step2 Step3 Grooving into initial diameter range Turning away from center Turning to center When face grooving, reduce the speed by 0% in relation to that used in face turning. For finishing Basic steps in face turning operation procedure for Finishing operation with T-Clamp Ultra Plus tools. Step1 Step2 Step3 Step After initial groove, Continue turning away from center Finish major diameter and the radius Turn to center Finish minor diameter When face grooving, reduce the speed by 0% in relation to that used in face turning. 73

USER GUIDE - Face Machining Recommended Machining Conditions Material Carbon Steel 0.2%C 0.5%C 0.83%C Alloy Steel Martensitic Stainless Steel Austenitic Carbon Cast Steel Alloyed Malleable Iron Short chip Long chip Cast Iron Low tensile High tensile Nodular Iron Ferritic Pearlitic Chilled Cast Iron Bronze Alloy Lead Alloy Brass & Red Phosphor Bronze Aluminum Alloy Non-heat Treatable Heat-Treatable Aluminum Alloys, Cast Magnesium Electrolytic Copper Hardness Brinell HB 150 190 250 < 200 200-250 275-325 325-375 375-25 175-225 275-325 135-175 150 150-200 200-250 110-15 200-250 180 250 160 250 00 120-200 80-150 60-110 85-110 150-200 30-80 80-120 0-60 HRB 60-90 HRB 50-85 K 10 T T 7220 Cutting Speed (sfm) 361-59 328-27 295-361 262-27 26-39 230-295 Choose the tool 197 range - 26with the largest diameter 18 depending - 180 on the initial grooving 328 - diameter 3 required in the application. 230-312 16-213 35-3 279-328 26-295 295-328 230-295 377-59 262-328 279-35 262-328 66 361-39 92-51 377-10 262-295 656-787 1969-2297 820-98 98-1116 738-869 755-820 295-361 For turning, increase cutting speed by 20-30% 7

USER GUIDE - Slotting Cutters Recommended Feed Rates (FPT) for - Slotting Cutters ROTATION TIMC TIMJ TIPV Drive Flange Set Recommended For Style 2 Cutters Table Feed Recommended Feed Rates (based on insert width) I N C H. 250. 200. 161 Feed rates are for radial DOC = >1/ the cutter diameter For radial DOC <1/ the cutter diameter increase feed rates by the following %. 1 2 2. 0 8 7. 0 6 3. 0 0 2. 0 0 2 5. 0 0 3. 0 0. 0 0 5. 0 0 5 5. 0 0 6. 0 0 7. 0 0 8. 0 1 0. 0 1 2 FPT DOC/Cutter diameter Increase feed rate by - > 1/ 1/6 1/8 1/10 1/20 0% 15% 30% 5% 100% Cutter Entry Climb milling (down), conventional milling (up) and plunge slotting are possible with T-Clamp Ultra. Climb milling enters the workpiece with a thick chip and exits thin. Honed inserts are recommended. Conventional milling enters the workpiece with a thin chip and exits thick. Sharp inserts are recommended. Climb milling should be used whenever possible, especially when replacing high speed steel slotting cutters with T-Clamp Ultra. On machines with backlash eliminators, climb milling is preferred. Cutter Mounting The use of drive flange sets are recommended to prevent denting of arbor drive keys and to provide added stability during increased metal removal rates. Insert Mounting Manually place insert in pocket and seat into place by using a wooden or plastic hammer. This will ensure selfpositioning for insert repeatability and minimal radial runout. Pockets must be clean and free of debris prior to installation. 75

USER GUIDE - Slotting Cutters Cutting Materials Applications - Slotting Cutters Carbon Steel Alloy Steel Stainless Steel Cast Steel Workpiece Material 0.2%C 0.5%C 0.83%C ferritic Martensitic austenitic Carbon alloyed P0A Brinell TT7220 TT5100 Hardness Cutting Speed Cutting Speed Cutting Speed SFM SFM SFM 150 190 250 up to 200 200-250 275-325 325-375 375-25 25-75 135-175 175-225 275-325 375-25 135-175 up to 150 150-200 200-250 250-300 365-95 265-365 215-315 280-365 230-295 200-265 165-230 130-200 100-165 395-95 330-30 230-295 130-200 265-330 230-330 180-250 150-215 115-180 20-570 305-20 250-360 320-20 265-30 230-305 190-265 150-230 115-190 55-570 380-95 265-30 150-230 305-380 265-380 210-290 175-250 130-210 560-760 395-660 295-560 395-595 330-530 265-30 230-365 180-315 150-265 560-725 30-660 330-95 150-230 330-95 295-530 250-30 200-360 150-265 Malleable Iron Cast Iron, Workpiece Material Low Tensile, Grey Cast Iron, High Tensile, Grey, Alloy Nodular Iron Chilled Cast Iron Nickel Base Alloys Inconel 600 Hastelloy C Titanium Alloys 6ALV Wrought Aluminum 202, 6061, 7075 Cast Aluminum 308, 356,380 ferritic pearlitic ferritic pearlitic K10 Brinell TT6030 Hardness Cutting Speed Cutting Speed SFM SFM 110-15 200-250 180 250 160 250 00 175-225 300-350 30-80 50-100 265-365 230-315 365-60 230-330 230-365 180-265 33-65 50-120 90-180 1250-2550 1000-2050 305-20 265-365 20-530 265-380 265-20 210-305 0-75 60-10 110-210 1500-3000 1200-200 CAUTION : These cutters have maximum RPM ratings. Be sure to read the catalog page for specific RPM ratings on your cutter style! 76

USER GUIDE Application Range 10 20 30 0 50 CT3000 TT9030 TT5100 TT7200 TT7220 CT3000 TT5100 TT9030 TT8020 AB30 TT7200 K10 CT3000 TT9030 KP300 TT5100 TT8020 TT9030 TT5100 TT8020 AB30 KB50 TT5100 A CVD coated grade for machining carbon steels, alloy steels and stainless steels with outstanding tool life. CT3000 A new, reinforced, cermet grade for good toughness and wear resistance. Recommended in grooving, parting & turning alloy steels and stainless steels with good surface quality, and long tool life. AB30 A mixed ceramic grade for high productivity machining cast iron, hard material and graphite. Also good results in grooving & parting inconel 718. TT8020 TaeguTec s toughest PVD grade for severe interrupted cuts and machining stainless steel and exotic alloys. TT7220 A PVD coated grade for excellent machining in carbon steel and alloy steel TT9030 A PVD coated grade features high toughness and excellent wear resistance. Very good performance in alloy steels, stainless steels and exotic alloys. 77

USER GUIDE Grades TaeguTec Grade ISO Characteristics Application P0A Uncoated P30 - P50 Suitable for parting at medium speeds and large feeds in unfavorable conditions. For steel, steel castings with cavities. Cut off and Grooving K10 Uncoated K10 - K20 For semi-finishing and finishing at medium cutting speeds and feeds. For cast iron, malleable cast iron, aluminum, copper alloys. Cut off, Grooving and Turning TT7200 CVD Coated P20 - P0 For semi-finishing and roughing at medium cutting speeds and feeds. For carbon steel, alloy steel, steel castings, malleable cast iron. TiC-TiCN-TiN Cut off and Grooving TT5100 CVD Coated P20 - P0 M15 - M35 S10 - S20 Excellent chipping resistance and adhesion resistance. For medium turning of low carbon steel, low carbon alloy steel and stainless steel. TiC-TiCN-Al2O3-TiN Turning and Grooving TT7220 PVD Coated P20 - P35 For semi-roughing and medium cutting of steel. For carbon steel, alloy steel. TiCN Cut off, Grooving and Turning TT8020 PVD Coated P30 - P5 M30 - M0 N15 - N30 S20 - S30 Toughest grade in all T-Cut grades. First choice for interrupted cut on stainless steel and exotic alloy. Cut off and Grooving TT9030 PVD Coated P15 - P35 M10 - M30 K10 - K30 S15 - S25 High mechanical shock resistance. For semi-roughing and medium cutting of steel and stainless steel. For high speed machining of gray cast iron and ductile cast iron. TiAlN coated on sub-micron grade. Cut off and Grooving TT6030 PVD Coated K05 - K20 High wear resistance. For medium and high speed machining of gray cast iron and ductile cast iron. Turning and Grooving CT3000 Cermet P05 - P15 M05 - M15 K05 - K15 Suitable for finishing to semi-finishing of steel, cast iron and stainless steel. General turning and grooving of steel. Cut off, Grooving and Turning AB30 Ceramic K05 - K15 H05 - H15 For high speed machining of cast iron and high hardness material. Can be applied for interrupted cut. Cut off, Grooving and Turning KB50 CBN H01 - H05 For high speed machining of hardened steel in finishing. Turning and Grooving KP300 PCD N05 - N15 For high speed machining of low Si aluminum alloy. Turning and Grooving 78

USER GUIDE Failure Mode Insert failure and tool life Problem Possible Cause Solution 1. Rapid flank wear Short tool life Too high cutting speed. Carbide with too low wear resistance Decrease cutting speed. Use a carbide with higher hardness, or a coated carbide 2. Cratering Short tool life High cutting temperature on insert rake face at high feed and speed Decrease feed and speed. Use coated grade. 3. Cutting edge / Insert fracture. Plastic deformation 5. Chip control spaghetti-like chips coil under holder and interfere with operation Too high load on insert. Insert width too narrow. Grade too brittle. Too high heat pressure decreasing carbide hardness. Too small depth of cut. Feed too slow. Insert width too large. Insert radius too large. Use wider insert, for maximum support. Decrease feed and speed. Choose a tougher grade. Use a bigger corner radius, decrease feed and speed. Choose carbide with higher hardness. Check chipbreaking range. Increase depth of cut. Increase feed rate. Use narrower insert with a smaller radius. 6. Poor surface finish Too small depth of cut, i.e. less than corner radius. Increase depth of cut to minimum radius size. 7. Vibrations and poor surface quality Too small front clearance angle between insert and workpiece leads to rubbing action. Increase feed to get suitable clearance. Before starting, check that the frontal cutting edge is parallel to workpiece. 79

80

INDEX DESIGNATION DESCRIPTION Page TDA ALUMINUM WHEELS MACHINING INSERTS B32 TDC CUT OFF & GROOVING INSERTS B 18~B 20 TDC - R/L CUT OFF & GROOVING INSERTS B 18~B 20 TDC - RS/LS CUT OFF & GROOVING INSERTS B 18~B 20 TDFT FACE TURNING & GROOVING INSERTS B 31 TDFT E-. T CE FACE TURNING & GROOVING CERAMIC INSERTS B 29~B 30 TDIT PRECISION INTERNAL TURNING & GROOVING INSERTS B 29~B 30 TDIT E-. T CE PRECISION INTERNAL TURNING & GROOVING CERAMIC INSERTS B 21~ B 22 TDJ CUT OFF & GROOVING INSERTS B 21~ B 22 TDJ - R/L CUT OFF & GROOVING INSERTS B 21~ B 22 TDJ - RS/LS CUT OFF & GROOVING INSERTS B 2~B 27 TDT. E-. PRECISION TURNING& GROOVING INSERTS B 2~B 27 TDT. -. PRECISION TURNING& GROOVING INSERTS B 2~B 27 TDT E-. TURNING & GROOVING INSERTS B 2~B 27 TDT E-. T CE TURNING & GROOVING CERAMIC INSERTS B 2~B 27 TGB 26- S SINGLE ENDED BLADES B 3 TGB 32- BLADES B 3 TGB 5- BLADES B 3 TGB-MS BLADES B 35 TGER/L CUT OFF & GROOVING HOLDERS B 38 TGEUR/L EXTERNAL UNDERCUTTING HOLDERS B 7 TGFPR/L FACE & EXTERNAL GROOVING PERPENDICULAR HOLDERS B 3 TGFR/L FACE & EXTERNAL GROOVING HOLDERS B 2 TGIUR/L INTERNAL UNDERCUTTING HOLDERS B 9 TGIUR/L - 15A INTERNAL TURNING FOR ALUMINUM WHEEL MACHINING HOLDERS B 50 TH101 BLADES A 10 THR/L 201 CUT OFF & GROOVING HOLDERS A 11 THR/L 211 EXTERNAL TURNING & GROOVING HOLDERS A 12 THR/L 619 INTERNAL TURNING & GROOVING HOLDERS A 13 TIMC CUT OFF & GROOVING INSERTS A 2~ A 3 81

INDEX DESIGNATION DESCRIPTION Page TIMC R/L CUT OFF & GROOVING INSERTS A 2~ A 3 TIMJ CUT OFF & GROOVING INSERTS A TIMJ R/L CUT OFF & GROOVING INSERTS A TIPV. E. PRECISION TURNING & GROOVING INSERTS A 5 TIPV. E. PRECISION TURNING & GROOVING INSERTS A 6 TIPV.. PRECISION TURNING & GROOVING INSERTS A 7 TIPV.. PRECISION TURNING & GROOVING INSERTS A 8 TSA ALUMINUM WHEELS MACHINING INSERTS B 32 TSC CUT OFF & GROOVING INSERTS B 18~ B 20 TSC - R/L CUT OFF & GROOVING INSERTS B 18~B 20 TSC - RS/LS CUT OFF & GROOVING INSERTS B 18~B 20 TSC. -. SLOTTING CUTTERS B 18~B 20 TSJ CUT OFF & GROOVING INSERTS B 21~ B 22 TSJ - R/L CUT OFF & GROOVING INSERTS B 21~ B 22 TSJ - RS/LS CUT OFF & GROOVING INSERTS B 21~ B 22 TTBN - BLOCKS - SOLID TYPE B 36 TTBU - BLOCKS - TOP CLAMP TYPE B 37 TTER/L EXTERNAL TURNING & GROOVING HOLDERS B 39~B 0 TTER/L-SH EXTERNAL TURNING & GROOVING HOLDERS B 1 TTFPR/L DEEP FACE TURNING & GROOVING PERPENDICULAR HOLDERS B 6 TTFR/L DEEP FACE TURNING & GROOVING HOLDERS B 0~ B 5 TTIR/L INTERNAL TURNING & GROOVING HOLDERS B 8 82

Ingersoll Cutting Tools for the Americas Marketing & Technology Center 85 S. Lyford Road Rockford, IL 61108-279 U.S.A. Tel: 815.387.6600 Fax: 815.387.6968 Email: info@ingersoll-imc.com Internet: www.ingersoll-imc.com Ingersoll Cutting Tool Ltd. 510 Rhodes Drive, Unit #100 Windsor, Ontario N8W 5K5, Canada Tel: 519.97.1019 Fax: 519.97.2260 Ingersoll Cutting Tools de México S.A. de C.V. Carr. Saltillo Monterrey Km. 5.5, Local 2 y 3 Saltillo, Coahuila C.P. 25200, México Tel: (8) 32.256, (8) 32.257 Fax: (8) 32.25 TaeguTec Inc. Ingersoll Cutting Tools Marketing & Technology Center & Central Warehouse 85 S. Lyford Road Rockford, IL 61108-279 Tel: 815.387.66 Fax: 815.387.6958 Email: Ed.Woksa@TaeguTec.com Internet: www.taegutec.com Ingersoll Cutting Tools for Europe Marketing & Technology Center Ingersoll Werkzeuge GmbH Kalteiche-Ring 21-25 35708 Haiger, Germany Tel: 02773.72 0 Fax: 02773.72 812/81 Email: info@ingersoll-imc.de Internet: www.ingersoll-imc.de CAT. No : 7805839 English Version(Inch) : CT 09/2003