Features a design optimized for unequal spacing of teeth and variable leads to improve chipping resistance and enable high-efficiency machining
Nick shape
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Applicable work materials
Low-carbon steels SS400, S10C |
Carbon steels S45C, SCM440 |
Pre-hardened steels SUJ, NAK |
Tempered steels SKD, SKH |
Hardened steels Hardened Steels |
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150HB | 225HB | 275HB | 30 40HRC | 40 50HRC | 50 65HRC |
Stainless steels SUS304 |
Heat-resistant alloy Ti/Ni Alloys |
Cast iron FC/FCD |
Aluminum alloy AC/ADC |
Copper/copper alloy Cu |
Graphite Graphite |
: optimal : applicable ×: not applicable No mark: not recommended
GSX II coating
Heat resistance far superior to competitors
Oxidation resistance evaluation (calo test crater after being held for 1 hour in the atmosphere at 1,100°C)
Coating (oxidation resistance temperature) | Calo test crater |
GSX II coating 1,100°C |
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Company A C coating 1,200°C (Company A's listed value) |
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Company B D coating 1,300°C (Company B's listed value) |
Oxidation resistance tests conducted under NACHI standards showed GSX II coating limits oxidation to 0.3µm from the surface, whereas coating products of competitors resulted in
total oxidation of the coating layer.