201 304 316 1.5mm Stainless Steel Sheet 2B Finish 1000mm 1219mm Width
Stainless steel plate has smooth surface, high plasticity, toughness and mechanical strength, and is resistant to corrosion of acid, alka solution and other media. It is a kind of alloy steel that is not easy to rust, but it is not absolutely rust free. Stainless steel plate refers to the steel plate resistant to the corrosion of weak media such as atmosre, steam and water, while acid resistant steel plate refers to the steel plate resistant to the corrosion of chemical etching media such as acid, alkali and salt.
Stainless steel plate specification
Name | Thickness | Width | Length |
Thin plate | 0.2mm-4mm | 1000mm 1219mm 1500mm 1800 mm 2000mm | 2000mm 2438mm 3000mm 6000mm-12000mm |
Medium plate | 4mm-20mm | 1000mm 1219mm 1500mm 1800 mm 2000mm
| 2000mm 2438mm 3000mm 6000mm-12000mm
|
thick plate | 20mm-115mm | 1000mm 1219mm 1500mm 1800 mm 2000mm
| 2000mm 2438mm 3000mm 6000mm-12000mm
|
Common materials:201,202,301,304,309(S),310(S),316(L),321,409,410,430,etc. | |||
If the customer's demand is large, we can cut it according to the customer's size Another can do late, anti - slide plate, electroplating plate. | |||
In order to ensure that the mechanical properties such as yield strength, tensile strength, elongation and hardness of various stainless steel plates meet the requirements, the steel plates must undergo heat treatment such as annealing, solution treatment and aging treatment before delivery. It is widely used in chemical industry, food, medicine, papermaking, petroleum, atomic energy and other industries, as well as various parts of buildings, kitchenware, tableware, vehicles and household appliances. |
Stainless steel plate or steel forming process has two kinds of hot rolling and cold rolling, they largely affect the structure and performance of steel has a great impact, stainless steel plate rolling is mostly hot rolling, cold rolling is often used to produce small steel and thin plate.
Carbon (C) : 1. Improve the deformation resistance and tensile strength of the blade; 2. Enhance hardness and improve wear resistance.
Chromium (Cr) : 1. Enhanced hardness, tensile strength and toughness; 2. Prevent wear and corrosion.
Cobalt (Co) : 1. Increase the hardness and strength, so that it can withstand high temperature quenching; 2. Used in more complex alloys to enhance certain individual properties of other /p> Copper (Cu) : 1. Enhance corrosion resistance; 2. Enhance wear resistance. Manganese (Mn) : 1. Increase quenchability, wear resistance and tensile strength; 2. Removal of oxygen from molten metal by separate oxidation and separate vaporization; 3. When added in large quantities, the hardness is enhanced, but the brittleness is improved. Molybdenum (Mo) : 1. Enhanced strength, hardness, hardenability and toughness; 2. Improve machinability and corrosion resistance. Nickel (Ni) : 1. Enhance strength, hardness and corrosion resistance. srus (P) : enhances strength, machinability and hardness. 2. It is easy to crack when the concentration is too high Silicon (Si) : 1. Enhanced ductility; 2. Increase the tensile strength; 3. Removal of oxygen from molten metal by separate oxidation and separate vaporization. Sulr (S) : Use in small quantities to improve machinability. Tungsten (W) : Increases strength, hardness and toughness. Vanadium (V) : increases strength, hardness and seismic resistance.