Properties and applications of elements in stainless steel wire mesh
Carbon(C): improve tensile strength and deformation capacity, enhance hardness, improve wear resistance
Chromium(Cr): enhance hardness, tensile strength and toughness, anti-wear and corrosion
Cobalt(Co): increase hardness and strength, so that it can withstand the high temperature quenching, in more complex alloy used to strengthen some individual characteristics of other elements
Copper(Cu): enhance corrosion resistance and abrasion resistance
Manganese(Mn): can increase the resistance, tensile strength and abrasion strength
Molybdenum(Mo): enhance strength, hardness, harden-ability and toughness, improve machinability and corrosion resistance
Nickel(Ni): enhance strength, hardness and corrosion resistance
Phosphorus(P): enhance strength, machinability and hardness, easy to brittleness in high rate
Silicon(Si): can increase ductility, tensile strength
Sulphur(S): small amounts can improve the machinability
Wolfram(W): increase strength, hardness and toughness
Vanadium(V): increases strength, hardness and seismic capacity
1-1. Nickel and chromium complexes can play a role in the stainless steel wire mesh
1-2. Manganese and nitrogen can replace nickel in stainless steel wire mesh
For the role of manganese austenitic nickel similar. But says the exact number, the role of manganese austenite is not formed, but rather that it is critical to reduce the steel quench rate increase during the cooling of austenite stability, inhibiting decomposition of austenite, formed under high temperature austenite is maintained to room temperature
1-3.Addition of titanium is to prevent intergranular corrosion.
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