Product Description
Commodity |
Cold Rolled/ Hot Rolled Carbon Steel Coils/sheet |
Grade |
Q195, Q215,Q235,Q345,ST37, A36,45# , 1 6Mn, SPHC,SGCC,CGCC |
Standard |
ASTM EN DIN GB ISO JIS BA ANSI |
Technique |
Hot rolled cold rolled as Your Request |
Surface treatment |
Bare, Black,Oiled,Shot Blasted,Spray Paint,Coated,Galvanized,or as Your Request |
Application |
Applies to appliances construction, machinery manufacturing, container manufacturing, shipbuilding, bridges, etc. |
Usage |
Oil Pipe, Casing Tube, Line Pipe and Fluid (Water, Gas) Transmission |
Thickness |
Hot Rolled Thickness:2.75mm-1 00mm, as Your Request |
Cold Rolled Thickness:0.2mm-3mm, as Your Request |
Width |
1 250-2500mm,or as Your Request ( regular width 1 000mm, 1 250mm, 1 500mm ) |
Coil weight |
1-10MT/Coil or as your request |
Carbon steel coils are indispensable in a myriad of industries, including automotive, construction, manufacturing, and transportation. These versatile coils are integral in fabricating components, parts, and structures that demand exceptional strength, durability, and flexibility.
Thickness: Our steel coils boast a thickness range from 0.2mm to 30mm, catering to diverse industry needs. Commonly utilized thicknesses include 0.3mm, 0.5mm, 1.0mm, and 2.0mm, ensuring optimal performance for varied applications.
Width: The width of our steel coils spans from 600mm to 2000mm, accommodating a wide array of uses. Standard widths such as 900mm, 1000mm, and 1200mm are available to meet specific project requirements.
Length: Customizable to your precise specifications, our steel coils also come in standard lengths like 6 meters, 9 meters, 12 meters, and 20 meters, offering flexibility for your unique needs.
Features of Hot Rolling:
1. Enjoy low energy consumption coupled with excellent plastic processing and minimal deformation resistance. This process avoids significant work hardening, simplifies rolling, and reduces the energy required for metal deformation.
2. Leveraging large ingots and substantial rolling reductions, hot rolling accelerates production while maximizing output, setting the stage for large-scale manufacturing.
3. Hot rolling transforms the cast structure into a processed structure, significantly enhancing the material's plasticity through structural modification.
4. The rolling method inherently influences the anisotropic properties of the rolled plate.
Firstly, noticeable performance variations exist in the longitudinal, transverse, and vertical axes of the material.
Secondly, deformation and recrystallization textures introduce a pronounced directionality to punching performance, highlighting the method's unique characteristics.