Tooling for injection core (X5CrNi18-10) T6 T5 T4 T3 T2 ø15 T1 Introduction Chip control by machining the material X5CrNi18-10 is T7 very difficult. Optimizing tool selection for each machining is the key to productivity improvement since many processes are required. Note for machining T8 1) Stable control with 3D molded chipbreaker 2) Sharp cutting edge enables high quality surface finish 3) Long tool life with heat-resistant coating "PR1535" 25 mm Grade selection PR1535 is suitable for stainless steel machining. Achieve long tool life and stable stainless steel machining with the combination of a tough substrate and a special Nano coating layer. T1 P3 DRA High precision and high efficiency machining SS10-DRA080M-3 DA0800M-GM PR1535 Cutting conditions Vc = 70 m/min f = 0.08 mm/rev T2 T8 P4/P9 EZ Bar series Lineup from high precision solid bars to indexable type EZH07019CT-120 T2 C06X-SCLCR04 - 070EZ CCGT040102MP-CF PR1535 T8 EZH06019HP-120 EZVBR065060-010 PR1225 Cutting conditions Boring EZ bar PLUS: indexable type Vc = 60 m/min, ap = 0.25 mm f = 0.04 mm/rev Back facing EZ bar Vc = 60 m/min, ap = 0.2 mm f = 0.05 mm/rev T3 T4 P5 3D molded sharp edge chipbreakers These chipbreakers combines sharpness and superior chip control T3 SCLCR1212JX-09FF CCGT09T304MFP-GQ PR1535 T4 SDJCR1216JX-11-F15 DCGT11T302MFP-SK PR1535 Cutting conditions Roughing SK chipbreaker Vc = 80 m/min, ap = 0.2 - 2.5 mm f = 0.1 mm/rev Finishing GF chipbreaker Vc = 80 m/min, ap = 0.5 mm f = 0.08 mm/rev T5 P6 GBF GL Chipbreaker 3D molded chipbreaker enables smooth chip control KGBFR1212JX-16F GBF32R100-005GL PR1535 Cutting conditions Vc = 80 m/min f = 0.08 mm/rev Grooving depth: 3 mm 1
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