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310S stainless steel sheet

Commodity name： 310S stainless steel sheet

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Stainless Steel Series

Stainless steel sheet

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Product Description

310S (formerly designated as 0Cr25Ni20, now designated as 06Cr25Ni20) is an austenitic chromium-nickel stainless steel with excellent oxidation resistance and corrosion resistance. Due to its relatively high chromium and nickel content, 310S exhibits superior creep strength, enabling it to maintain performance under high-temperature conditions and demonstrating excellent high-temperature resistance.
310S stainless steel is an austenitic chromium-nickel stainless steel that exhibits excellent resistance to oxidation, corrosion, and high temperatures. Due to its relatively high chromium and nickel content, it boasts superior creep strength, enabling it to maintain performance under high-temperature conditions and demonstrating outstanding high-temperature resistance.

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Frequently Asked Questions

What are the differences in performance requirements between steel used for construction and steel used for machinery manufacturing?

Structural steel focuses on strength (especially yield strength), plasticity, toughness, and weldability. For example, reinforcing bars need good ductility to accommodate concrete deformation, facilitate welding connections, and also require certain seismic resistance (good toughness). Steel used in mechanical manufacturing emphasizes strength, hardness, wear resistance, and fatigue strength. For instance, gear steel requires high hardness and wear resistance to withstand friction, while shaft steel needs good comprehensive mechanical properties (matching strength and toughness) to resist alternating loads.

What is the difference between the yield strength and tensile strength of steel? Which one is more important in engineering applications?

Yield strength is the stress at which steel begins to undergo plastic deformation, marking the critical point where the material transitions from the elastic stage to the plastic stage; tensile strength is the maximum stress that steel can withstand before fracture, reflecting the material's ultimate resistance to failure. In engineering applications, yield strength is usually more important because when the material stress reaches the yield strength, irreversible plastic deformation occurs, which may affect the normal use of the structure. Design generally uses yield strength as the basis for strength design to ensure that the structure does not undergo excessive deformation during use.

Into how many categories can steel be divided based on its chemical composition? What are the characteristics of each?

Steel can be mainly divided into carbon steel and alloy steel based on its chemical composition. In carbon steel, carbon is the main alloying element. According to the carbon content, it is further divided into low carbon steel (carbon content ≤ 0.25%), medium carbon steel (0.25% < carbon content ≤ 0.6%), and high carbon steel (carbon content > 0.6%). Its characteristics include lower cost, simpler smelting process, and performance that improves in strength and hardness but decreases in plasticity and toughness as the carbon content increases. Alloy steel is based on carbon steel with added alloying elements such as chromium, nickel, and manganese, offering higher strength, toughness, wear resistance, or corrosion resistance, making it suitable for more demanding working conditions.

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