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The chemical composition of 10CrMo910 steel grade in heavy engineering projects should be carefully considered in order to address its thermal conductivity and mechanical strength. The chemical composition of this steel grade typically includes the following elements:
– Carbon (C): Typically in the range of 0.08-0.15%. Carbon content impacts the mechanical properties of the steel, including its strength and hardness.
– Silicon (Si): Typically in the range of 0.10-0.50%. Silicon can enhance the steel’s ability to resist oxidation and improve its strength.
– Manganese (Mn): Typically in the range of 0.40-0.70%. Manganese helps to improve the steel’s hardenability and strength.
– Phosphorus (P): Typically limited to a maximum of 0.025%. High phosphorus content can negatively affect the steel’s toughness and weldability.
– Sulfur (S): Typically limited to a maximum of 0.010%. Excess sulfur can lead to the formation of non-metallic inclusions that can reduce the steel’s mechanical properties.
– Chromium (Cr): Typically in the range of 2.00-2.50%. Chromium is a key element in heat-resistant steels and contributes to their ability to withstand high temperatures and resist oxidation.
– Molybdenum (Mo): Typically in the range of 0.90-1.10%. Molybdenum enhances the steel’s high-temperature strength and creep resistance.
– Nickel (Ni): Typically in the range of 0.30-0.80%. Nickel improves the steel’s toughness, impact resistance, and resistance to corrosion and oxidation.
– Copper (Cu): Typically limited to a maximum of 0.30%. Copper can improve the steel’s resistance to atmospheric corrosion but can negatively affect its weldability.
– Vanadium (V): Typically limited to a maximum of 0.20%. Vanadium can improve the strength, toughness, and high-temperature stability of the steel.
By carefully controlling the chemical composition of 10CrMo910 steel grade, its thermal conductivity and mechanical strength can be optimized for heavy engineering projects where these properties are critical.
10CrMo910 Steel grade
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