A286 Stainless Steel

We produce ASTM/ASME Grade 304, Grade 304L,304h, 316, 316L, 316H, 316TI, 321, 321H, 309S, 309H, 310S, 310H, 410S, 2205, 904L, 2507, 254, gh3030, 625, 253MA, S30815, 317L, Type 317, 316lN, 8020, 800, 800H, C276, S32304 and others special requirement stainless steel grade.

These properties also make grade 316 chrome steel ideal for pharmaceutical and medical applications. Since sterilization processes in these industries mix both strong disinfectants and or with excessive temperatures to forestall contamination, a resistant alloy corresponding to grade 316 is ideal.

It’s an iron-base materials designed for high temperatures (1300°F) where corrosion resistance, excellent creep power and high tensile power are required. A286 Stainless Steel is also a well-liked steel to spec for low temperature purposes that require a ductile, non-magnetic, excessive strength materials. Ferritic stainless steels possess a ferrite microstructure like carbon steel, which is a physique-centered cubic crystal construction, and contain between 10.5% and 27% chromium with very little or no nickel. This microstructure is present at all temperatures because of the chromium addition, so they don’t seem to be hardenable by heat therapy. They can’t be strengthened by chilly work to the identical diploma as austenitic stainless steels.

The minimum 10.5% chromium in stainless steels supplies resistance to roughly 700 °C (1,300 °F), while 16% chromium provides resistance up to approximately 1,200 °C (2,200 °F). Type 304, the most typical grade of stainless-steel with 18% chromium, is immune to approximately 870 °C (1,600 °F). Other gases, such as sulfur dioxide, hydrogen sulfide, carbon monoxide, chlorine, additionally assault stainless steel.

Uniform Corrosion

• The minimal 10.5% chromium in stainless steels offers resistance to roughly seven hundred °C (1,300 °F), whereas 16% chromium offers resistance up to roughly 1,200 °C (2,200 °F).
• Resistance to other gases is dependent on the kind of gas, the temperature, and the alloying content of the chrome steel.
• Type 304, the most common grade of stainless-steel with 18% chromium, is resistant to roughly 870 °C (1,600 °F).
• Stainless steels have a protracted history of application in contact with water due to their excellent corrosion resistance.
• Other gases, such as sulfur dioxide, hydrogen sulfide, carbon monoxide, chlorine, additionally assault stainless steel.

Cold Rolled,Hot Rolled Stainless steel Plate and sheets

Stock Thickness: 0.1-200.0mm
Production thickness: 0.5.0-200mm
Width: 600-3900mm
Length: 1000-12000mm
Grade:
200 series: 201,202
300 series: 301,304,304L,304H,309,309S,310S,316L,316Ti,321,321H,330
400 series: 409,409l,410,420J1,420J2,430,436,439,440A/B/C
Duplex: 329,2205,2507,904L,2304
Surface: No.1,1D,2D,2B,NO.4/4K/hairline,satin,6k,BA,mirror/8K

The ease of welding largely is determined by the type of stainless-steel used. Austenitic stainless steels are the best to weld by electrical arc, with weld properties just like these of the bottom steel (not chilly-labored).

Another popular high-performing alloy, grade 304 stainless steel is a sturdy materials by way of tensile power, sturdiness, corrosion, and oxidation resistance. The melting level of chrome steel 304 is reached at temperatures ranging between 2,550 °F – 2,650 °F (1399 °C – 1454 °C). However, the nearer grade 304 chrome steel reaches its melting level, the more tensile power it loses. At elevated temperatures, all metals react with hot gases. The most common high-temperature gaseous combination is air, of which oxygen is essentially the most reactive component.

Small additions of cerium and yttrium enhance the adhesion of the oxide layer on the floor. Type 304 and Type 316 stainless steels are unaffected weak bases corresponding to ammonium hydroxide, even in excessive concentrations and at excessive temperatures. The similar grades exposed to stronger bases such as sodium hydroxide at high concentrations and excessive temperatures will likely experience some etching and cracking. Increasing chromium and nickel contents present increased resistance.

Physical Properties

To keep away from corrosion in air, carbon metal is restricted to approximately 480 °C (900 °F). Oxidation resistance in stainless steels will increase with additions of chromium, silicon, and aluminium.

We have thousands tons stock of stainless steel sheet and coil with various size and grade,mainly include austenitic stainless steel, martens stainless steel (including precipitation hardened stainless steel sheet & coil), ferritic stainless steel, and duplex stainless steel.

Characteristics of Stainless Steel Sheet and Plate:
High corrosion resistance
High strength
High toughness and impact resistance
Temperature resistance
High workability, including machining, stamping, fabricating and welding
Smooth surface finish that can be easily clean