• Our Best Cold Rolled Steel Coil JIS G 3302 System 1
  • Our Best Cold Rolled Steel Coil JIS G 3302 System 2
  • Our Best Cold Rolled Steel Coil JIS G 3302 System 3
Our Best Cold Rolled Steel Coil JIS G 3302

Our Best Cold Rolled Steel Coil JIS G 3302

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Loading Port:
China main port
Payment Terms:
TT OR LC
Min Order Qty:
50 m.t.
Supply Capability:
10000 m.t./month

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Our Best Cold Rolled Steel Coil JIS G 3302

1.Structure of Cold Rolled Steel Description:

The raw material of cold rolled steel coil/sheet is high quality hot rolled product, and after pickling continuous rolling, degreasing, annealing,skin pass,slitting and cut to length line etc. Along with it many kinds of new  technology and new process of global cold rolling production have been applied. Therefore the quality of the goods could be guaranteed. The product is widely used in outdoor and interior decoration, furnishing manufacturing, home appliance, automobile etc.

2.Main Features of the Cold Rolled Steel:

• Excellent process capability

• Smooth and flat surface

• Workability, durability

• Excellent heat resistance performance

• High strength

• Good formability

• Good visual effect

 

3.Cold Rolled Steel Images

Our Best Cold Rolled Steel Coil JIS G 3302

Our Best Cold Rolled Steel Coil JIS G 3302

Our Best Cold Rolled Steel Coil JIS G 3302

 

4.Cold Rolled Steel Specification

Standard:AISI,ASTM,DIN,GB,JIS,JIS G3302 ASTM 653M EN10142

Grade: Q195~Q345

Thickness: 0.16mm~2.0mm

Width: 1250mm MAX

Coil weight:3-12 MT

Coil ID:508/610mm

Chemical composition:

C

Si

Mn

Cr

Ni

P

S

0.150

0.476

11.231

12.50

0.900

0.039

0.010

 

 

 5.FAQ of Cold Rolled Steel

1.How to guarantee the quality of the products?

We have established the international advanced quality management system,every link from raw material to final product we have strict quality test;We resolutely put an end to unqualified products flowing into the market. At the same time, we will provide necessary follow-up service assurance.

2. How long can we receive the product after purchase?

Usually within thirty working days after receiving buyer’s advance payment or LC. We will arrange the factory manufacturing as soon as possible. The cargo readiness usually takes 15-25 days, but the shipment will depend on the vessel situation.

 

Q: I'm looking for a good source as to the 'structural formula' of steel. I'm not quite sure if that's what it's actually called, but here's a link to what I'm looking for.
structural formula only apply to a chemical compound, and steel is not that. It is a MIXTURE, an alloy, of iron, carbon, and any of a number of other materials, such as chromium, manganese, etc.
Q: How are steel coils used in the production of metal partitions?
The production of metal partitions relies heavily on steel coils, which are a vital ingredient. These coils, typically made from top-notch steel, act as the primary material for manufacturing the partitions. To begin with, the steel coils undergo a process called slitting, where they are sliced into narrower strips of the desired width. This step allows manufacturers to tailor the size of the metal partitions according to specific project requirements. Following slitting, the steel strips are fed into a roll forming machine. This machine gradually transforms the strips into the desired profile for the metal partitions. The roll forming process involves passing the steel strips through a series of rollers, which progressively bend and shape the metal into the desired form and dimensions. Once the metal has been shaped as desired, it is then cut into appropriate lengths to create individual partitions. These partitions undergo further processing, such as welding or spot welding, to join different components and enhance their structural integrity. Steel coils are highly preferred for metal partition production due to their strength, durability, and versatility. The use of steel ensures that the partitions can withstand heavy loads, resist corrosion, and offer long-lasting performance. Moreover, steel coils provide a high degree of design flexibility, allowing for the creation of various partition styles, including solid panels, perforated screens, or mesh partitions. All in all, steel coils play a pivotal role in the production of metal partitions by providing the necessary raw material, strength, and customization options required for these adaptable architectural elements.
Q: if steel is heated from room temperature (20c) to (500c) what would be the change in density?coefficient for linear expansion of steel 12x10^-6 k density of steel 7800 kg
First you have to convert the coefficient of linear expansion to a coefficient of volumetric expansion. Multiply the coefficient of linear expansion by 3: Coefficient of expansion of steel,β:12E-6/°K x 3 = 36E-6/°K Difference in temperature: 480°K ΔV = VoβΔT ΔV = Vo x (0.000036) x 480 ΔV = 1m? x 0.017 ΔV = 0.017m? Originally, the steel was at 7800 kg/m? Now, the steel was at 7800 kg/ 1.017m?, or 7670 kg/m? Change in density = 7670 - 7800 = -130kg/m?
Q: How are steel coils used in the production of railway tracks?
Railway tracks rely heavily on steel coils, which are indispensable in their production. These coils, typically made from top-notch steel, are utilized to create the rails that constitute the bedrock of the tracks. The process commences with the unwinding of the steel coils, which are then fed into a sequence of machines that mold and fashion them into the desired rail profile. Initially, the steel coils are passed through a rolling mill, where they undergo gradual flattening and shaping, thereby transforming into elongated steel strips. This technique, known as hot rolling, involves heating the steel to high temperatures to enhance its pliability. The rolling mill exerts substantial pressure on the steel, progressively molding it into the desired rail shape. Once the steel coils have been rolled into the requisite form, they are subsequently severed into individual rail lengths. The length of these rails may vary depending on the specifications of the railway track being produced. The rail lengths then undergo further processing to eliminate any flaws and straighten them out. Following this initial shaping and processing, the rails undergo a series of supplementary treatments. These treatments may entail heat treatment to bolster their strength and durability, as well as various surface treatments to prevent corrosion and wear. Once the rails have undergone all the necessary treatments, they are ready for installation on the railway track. They are laid out meticulously in a predetermined pattern, with each rail securely fastened to the sleepers or ties. The continuous length of steel provided by the coils ensures a seamless and uniform track, enabling trains to travel smoothly and safely. In conclusion, steel coils are crucial components in the production of railway tracks. They are utilized to manufacture the rails that serve as the foundation of the tracks, guaranteeing durability, strength, and a smooth surface for trains to traverse. The use of high-quality steel coils in this process is essential to ensure the safety and efficiency of railway transportation.
Q: How are steel coils used in the production of steel latches?
Steel coils are used in the production of steel latches as the primary material for manufacturing the latch components. These coils are processed through various stages like cutting, shaping, and forming to create the desired latch design. The steel coils provide the necessary strength and durability required for the latch to function effectively and securely.
Q: Climbing ropes used by mountaineers are usually made of nylon. Would steel cable of equal strength as the nylon be just as good? What advantages and disadvantages would it have compared to the nylon?
steel is NOT as flexible and much slipperier if you fall the nylon stretches to slow the victim but a steel cable would stop short and kill you
Q: How are steel coils stored in warehouses?
Steel coils are typically stored in warehouses by placing them on sturdy racks or shelves, often in a vertical position. This allows for efficient use of space and easy access to the coils for transportation or further processing. Additionally, steel coils are usually separated by wooden or metal spacers to prevent damage from contact with each other.
Q: How are steel coils used in the production of transportation systems?
Steel coils are an essential component in the production of transportation systems as they are used to manufacture various parts such as car bodies, chassis, and other structural components. These coils are shaped and processed to create different forms of steel, which are then used in the construction of vehicles like cars, trucks, trains, and ships. The durability and strength of steel make it an ideal material for transportation systems, ensuring safety and reliability.
Q: Is there much difference? Which is better? Are they equally safe? Is it just personal preference? Can you reccomend a good comfortable steel composite toe boot?
steel toe boots are just that a piece of steel fitted over the toes, composite toe boots use other materials that are just as hard BUT they do not have the connectivity levels as steel. if you are working in a cold climate steel toes will freeze them toes right off, also electrical environments. my advice get a good pair of composite ones, and you get what you pay for, its worth the investment. more than you could ever imagine. proper foot support. helps legs cramps, back pain etc...
Q: What are the dimensions of steel coils used in the packaging industry?
The dimensions of steel coils utilized in the packaging industry are subject to variation in accordance with the specific application and requirements. However, the customary dimensions for steel coils employed in packaging encompass a thickness ranging from 0.15 mm to 3 mm and a width spanning from 600 mm to 2000 mm. The internal diameter of the coil, referred to as the core, generally measures around 508 mm (20 inches); however, alternative sizes such as 610 mm (24 inches) or 762 mm (30 inches) may also be utilized. The outer diameter of the coil may fluctuate contingent upon the weight and size of the coil, yet it commonly falls between 1000 mm and 2000 mm. It is crucial to emphasize that these dimensions can be tailored to accommodate the specific requirements and preferences of the packaging industry.

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