| | | |
| | | P10 grade with excellent wear resistance at higher cutting speeds. Latest sinter processes and CVD coating technologies enable a
wide range of applications in the P material range. |
| | | CVD coated P10-P20 carbide grade for finishing to medium operation of steel, casting steel and high chrome material.Outstanding
performance under high cutting speed and temperature with excellent wear resistance. |
| | | CVD coated P10-P20 carbide grade for finishing to medium operation of steel and casting steel. Outstanding performance under higher cutting speed and temperature with excellent wear resistance. |
| | | P20 grade with exceptional wear resistance and toughness for reliable machining operations. Ultra-modern sintering technique and
CVD coating technologies allow for a wide range of applications in the P material range. |
| | | CVD coated P20-P35 carbide grade for medium operation to roughing of steel and casting steel. Optimal performance of wear
resistance and toughness for a wide application field. |
| | | CVD coated P20-P40 carbide grade for roughing operation of steel and casting steel. Optimal performance of wear resistance and
toughness for a wide application field. |
| | | CVD coated M10-M25 carbide grade for finishing to medium application in stainless steel. High wear resistance and capability
against plastic deformation at higher cutting speed. |
| | | CVD coated M15-M35 carbide grade for medium to roughing operation in stainless steel with wide application field. High wear
resistance and capability against plasctic deformation at higher cutting speed. |
| | | CVD coated K05-K20 carbide substrate.Optimized for medium operation of cast iron, special nodular cast iron and hard steel at high cutting speed. |
| | | CVD coated K10-K25 carbide substrate.Optimized for medium to roughing operation of cast iron. Improved wear resistance and toughness at high cutting speed. |
| | | CVD coated K10-K25 carbide substrate.Optimized for medium to roughing operation of cast iron. Good wear resistance and toughness at higher cutting speed. |
| | | Thick Al2O3 CVD coated K05-K25 carbide substrate.Optimized for medium to roughing operation of cast iron. Higher wear resistance and toughness at higher cutting speed in combination with TC chip breaker. |
| | | PVD coated N05–N20 carbide substrate for finishing to semi-finishing in aluminium materials. Coating only on the top face, in combination with the aluminium chip breakers, prevents built-up edges and gives a smooth cut. |
| | | PVD coated S05–S15 carbide substrate for finishing to medium application of super alloy material, stainless steel and aluminum. Good wear resistance in a wide application field. |
| | | PVD multilayer coated S05–S20 carbide substrate for finishing to medium application of super alloy material but also stainless steel. Good wear resistance and thermal stability in a wide application field. |
| | P10 - P30 M20 - M40 S15-S25 | PVD multilayer coated P10–P30/M20–M40/S15–S25 carbide substrate for finishing to medium machining of stainless steel, super alloys and steel (milling). Excellent wear resistance and thermal stability in a wide range of applications. |
| | | PVD multilayer coated P10–P30/M10–M25 carbide substrate for finishing to medium machining of stainless steel, super alloys and steel (grooving/milling). Optimised coating stability for higher wear resistance and thermal stability in a wide range of applications. |
| | | Carbide grade for semi-roughing to chip breaking of high-strength and high-alloy materials. High-performance grade with high wear resistance. Balanced hardness and internal stress ratio provide a wide range of applications. |
| | | Turning grade for processing nickel-base materials. A special carbide substrate and the latest PVD coating technology enable a very good wear behaviour and high thermal stability. |
