| Application Classification | General Grade | Features | Application |
| Steel | CP8115S | Manufactured with coarse-grain powder and an advanced sintering process.
Features a newly upgraded Al₂O₃ and MT-TiCN coating system, delivering excellent wear resistance and superior thermal insulation to prevent premature failure caused by high cutting temperatures.
Enhanced coating adhesion ensures a denser internal microstructure and improved overall reliability.
A CP8115 variant with a full yellow appearance is also available. | Suitable for finishing to semi-finishing of steel and alloy steel under continuous and stable cutting conditions, while also delivering excellent performance in light interrupted operations. |
| CP8125S | A functionally graded substrate with high binder phase content, combined with columnar Al₂O₃ and MT-TiCN coatings, provides an optimal balance of toughness and wear resistance.
A CP8125 variant with a full yellow appearance is also available. | Offers a wide application range, suitable for medium to rough machining of steel components, with excellent performance under unstable cutting conditions. |
| CP8035S | Incorporates an ultra-thick cobalt-enriched toughening layer, providing high substrate strength.
Combined with dense, ultra-fine Al₂O₃ and MT-TiCN coatings for enhanced wear resistance and overall performance. | Suitable for semi-finishing to roughing of steel and alloy steel under interrupted cutting conditions. |
| Stainless Steel | CM7115A | An ultra-fine grain cemented carbide substrate combined with a nano-structured composite coating delivers outstanding wear resistance and excellent hot hardness at elevated temperatures. | Suitable for machining stainless steel, heat-resistant alloys, and titanium alloys under stable cutting conditions. |
| CM7125A | A nano-structured AlTiN coating combined with a substrate featuring high hot hardness and strong resistance to plastic deformation provides excellent high-temperature oxidation resistance and superior anti-adhesive wear performance. | Suitable for low to medium-speed general machining of steel and stainless steel. |
| CM7215 | Nano-gradient TiAlN/TiSiN coating with excellent resistance to built-up edge (BUE), superior heat resistance, and outstanding oxidation resistance.
Micro fine-grain cemented carbide substrate offering high wear resistance and strong impact toughness.
The coating is tightly bonded to the substrate, making it suitable for stainless steel finishing to semi-finishing applications. | Suitable for high-speed semi-finishing to light roughing under stable cutting conditions. |
| CM7220 | An ultra-fine grain carbide substrate combined with a newly engineered coating architecture.
The optimized coating composition enhances hardness and wear resistance, improves high-temperature stability, reduces the coefficient of friction, and strengthens chemical stability. | Suitable for high-speed general machining from roughing to finishing under stable cutting conditions.
Typical applications include valve bodies and fluid components, food processing machinery, automotive parts, pipe fittings and connectors, marine components, hydraulic parts, construction machinery, general mechanical long-shaft components, decorative parts, and household equipment components. |
| Cast Iron | CK6105 | A high wear-resistant carbide substrate combined with thick MT-TiCN and Al₂O₃ coatings provides excellent overall wear resistance. | Suitable for high-speed machining of cast iron. |
| CK6115 | A high-toughness carbide substrate combined with columnar MT-TiCN and Al₂O₃ coatings delivers excellent wear resistance and outstanding impact resistance. | Suitable for semi-finishing to roughing of gray cast iron and ductile cast iron under various interrupted cutting conditions. |
| High Hardness Materials | CH3005 | A nano-crystalline carbide substrate combined with a specially engineered PVD Al₂O₃ composite coating process provides excellent high-temperature performance.
It maintains stable mechanical properties under elevated temperatures, preventing deformation or premature failure caused by thermal stress.
It delivers superior surface finish quality, enabling turning to replace grinding operations. | Suitable for finishing of hardened materials with hardness ranging from HRC 50-63 after heat treatment.
Widely applied across various industries, including mold and die manufacturing for machining high-hardness tool steels;
automotive manufacturing for hardened components; as well as aerospace, energy, and medical device industries. |
