Heat treatment effect of X165CrMoV46 mold steel
X165CrMoV46 mold steel is a high-carbon, high-chromium, high-molybdenum tool steel with the following characteristics and applications:
X165CrMoV46 chemical composition:
Carbon C: 1.45~1.70< /p>
Silicon Si: 0.10~0.60
Manganese Mn: 0.20~0.60
Sulfur S: ≤0.030
Phosphorus P: ≤0.030< /p>
Chromium Cr: 11.00~13.00
Nickel Ni: ≤0.25
Copper Cu: ≤0.30
Vanadium V: 0.70~1.00< /p>
Molybdenum Mo: 0.70~1.00
X165CrMoV46 is in the annealed state when leaving the factory, with a hardness of ≤235HB
Characteristics: High hardness: X165CrMoV46 mold steel has high hardness , can achieve high hardness levels through appropriate heat treatment processes, providing excellent cutting performance and wear resistance.
High strength: This mold steel has excellent strength and can withstand high loads and extrusion forces without being easily deformed or broken.
Excellent wear resistance: X165CrMoV46 mold steel has excellent wear resistance and can resist friction and wear, extending the service life of the tool.
Impact resistance: This mold steel shows good impact resistance during work, able to withstand impact loads and reduce the risk of breakage and cracking.
Heat resistance: Due to its high carbon, high chromium and high molybdenum composition, X165CrMoV46 mold steel has good heat resistance and can maintain stable performance in high temperature environments. Application:
X165CrMoV46 mold steel is widely used in tool manufacturing fields that require high strength, high hardness, wear resistance and impact resistance. Main applications include but are not limited to: Cutting tools: such as blades, milling cutters, drill bits, etc., suitable for metal processing applications with high intensity cutting and high wear resistance requirements.
Stamping dies: Suitable for manufacturing stamping dies with large impact loads, such as auto parts, home appliances, etc. Plastic Injection Molds: Suitable for manufacturing durable and efficient plastic injection molds due to its wear and heat resistance.