• Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm System 1
  • Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm System 2
  • Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm System 3
Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm

Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm

Ref Price:
get latest price
Loading Port:
China main port
Payment Terms:
TT OR LC
Min Order Qty:
50 m.t.
Supply Capability:
1000000 m.t./month

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 Product Description

Prepainted galvanized steel coil, PPGI, PPGL, Prepainted galvalume/aluzincsteel, Color Coated Galvalume Steel Coil, Prepainted Galvalume Steel Coils, RAL color, 0.15-1.5mm, SGCC, CGCC, CGLC, DX51D, TDC51D, ASTM A653, CS TYPE, S280GO, S350GD, G550, JIS G3312, EN 10169 JIS G3322, ASTM A755/755M, comercial and structual quality

 

NAME
 

PPGI

GALVANIZED
 

GALVALUME/ALUZINC
 

CERTIFICATE

ISO9001:2008

 
 
STANDARD
 

EN10142
JIS G3302
GB/T-12754-2006

ASTM A653
JIS G3302
SGCC/SGCH
GB/T2518
European Standard

ASTM A792
JIS G3321
JIS G3317
 

 
 
 
GRADE
 
 

CGCC
CGCH
CGCD1-CGCD3
CGC340-CGC570
GRADE
 
 

SS GRADE33-80
SGCC
SGCH
SGCD1-SGCD3
SGC340-SGC570
SGCC
DX51D

GRADE33-80
SGLCC
SGLCD
SGLCDD
SGLC400-SGLC570
SZACC
SZACH
SZAC340R

MODEL NO

0.16MM-1.5MM*1250MM OR UNDER

(0.12-1.5)*1250MM OR UNDER

0.16MM-1.5MM*1250MM OR UNDER

 
 
TYPE
 
 
 

Steel coil
Steel sheets/plates
Corrugated steel sheets/plates
 

Steel coil
Steel sheets/plates
Corrugated steel sheets/plates

Steel coil
Steel sheets/plates
Corrugated steel sheets/plates
 

 
TECHNIQUE

Hot rolled-cold rolled
-galvalume /galvanized
-PPGI/PPGL

Hot rolled-cold rolled
- galvanized

Hot rolled-cold rolled
-galvalume /Aluzinc
 

SURFACE
TREATMENT

Mini/regular/big/zero spangle,
Chromate treatment /chromate-free treatment /untreated unoile/oiled,
TENSION LEVELLERT SKIN PASS anti-fingerprint/un-anti-fingerprint,
Coating,color

Mini/regular/big/zero spangle,
Chromate treatment /chromate-free treatment /untreated unoile/oiled,
TENSION LEVELLERT SKIN PASS anti-fingerprint/un-anti-fingerprint,
Coating
 

APPLICATION

Structural use ,roofing, commercial use, household appliance, industry, family

SPECIAL
APPLICATION

Wear resistant steel, high- strength - steel plate

Applications:  
Pre-painted steel metal products are used in a vast array of applications including: 
1.construction industry
2. household appliances
3.automotive
4.industrial applications
5.packaging

Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm

Pre-Painted Steel Coil for Sandwich Wall Thinkness 0.3mm-2mm Width 900mm-1250mm

FAQ

1. Do you have QC team?     
Yeah, sure, our QC team is very important, they will keep the quality control for our products.for quality inspection every day.

 

Q: What are the different types of steel coil storage racks?
There are several different types of steel coil storage racks, including coil cradles, coil saddles, coil racks, and coil c-hooks. Each type is designed to securely hold and store steel coils of various sizes and weights, providing easy access and efficient storage solutions for industrial facilities.
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: What are the common methods of testing the durability of steel coils?
Steel coils undergo various testing methods to assess their durability, strength, and resistance to different stresses and conditions. Some commonly used techniques include: 1. Tensile testing: This method measures the maximum stress a coil can bear before breaking or deforming by subjecting it to tension. It provides valuable insights into the strength and ductility of steel coils. 2. Bend testing: This method evaluates the flexibility and resistance to deformation of steel coils by bending them to a specific angle and checking for cracks or fractures. It is essential for assessing coil durability in industries like construction or automotive. 3. Impact testing: This method determines the ability of steel coils to withstand sudden shocks or impacts. It involves striking the coil with a heavy object and measuring energy absorption or deformation. Impact testing helps identify coil toughness and resistance to sudden loading conditions. 4. Corrosion testing: Steel coils often face corrosive environments like moisture or chemicals. Corrosion testing examines the resistance of steel to degradation caused by these agents. Salt spray or electrochemical testing simulates and evaluates coil durability in corrosive conditions. 5. Fatigue testing: This method assesses the ability of steel coils to endure repeated loading and unloading cycles. It subjects the coil to cyclic stresses until failure. Fatigue testing is crucial in machinery or infrastructure applications where coils experience repetitive loading. 6. Hardness testing: This method gauges the resistance of steel coils to indentation or scratching, providing information about their strength and wear resistance. Common hardness tests include Brinell, Rockwell, and Vickers methods. 7. Non-destructive testing: In addition to the destructive methods mentioned above, non-destructive techniques like ultrasonic testing, magnetic particle inspection, or X-ray testing are used to detect internal defects or flaws without damaging the coil. By utilizing these testing methods, manufacturers and industries can ensure that steel coils meet the required durability standards and perform reliably in their intended applications.
Q: What is the role of steel coils in the manufacturing of appliances?
Steel coils play a crucial role in the manufacturing of appliances as they serve as the primary material for constructing the appliance's body and various components. The coils are processed, shaped, and transformed into different parts, such as the outer casing, inner structures, and internal components, providing strength, durability, and stability to the appliances. Additionally, the steel coils can be easily customized to meet specific design requirements, ensuring the appliances are efficient, reliable, and capable of withstanding the demands of daily use.
Q: How are steel coils used in the production of oil and gas pipelines?
Steel coils are used in the production of oil and gas pipelines as they are formed into pipes and provide the necessary strength and durability required for transporting these resources over long distances. The coils are uncoiled and then shaped into pipes through a process called pipe forming or rolling, which allows for the creation of seamless or welded pipes depending on the specific requirements. These pipes are then further processed, such as being welded together, coated, or threaded, to ensure their suitability for the transmission of oil and gas. Overall, steel coils play a crucial role in the manufacturing of pipelines by providing the necessary raw material for their construction.
Q: What are the dimensions of steel coils used in the power generation industry?
The dimensions of steel coils used in the power generation industry can vary depending on the specific application and requirements. However, in general, steel coils for power generation are typically available in various sizes and thicknesses. The width of steel coils used in power generation can range from a few inches to several feet, depending on the specific equipment or machinery they are intended for. These coils are often designed to fit specific manufacturing processes or components within power generation systems. The thickness of steel coils used in the power generation industry can also vary significantly. Thicker coils are commonly utilized for heavy-duty applications that require increased strength and durability, while thinner coils may be suitable for less demanding tasks or where weight reduction is a priority. Additionally, the weight of steel coils used in power generation can vary depending on their dimensions and the specific steel material being used. The weight is an essential consideration during transportation, installation, and handling of the coils. It is important to note that the dimensions of steel coils used in the power generation industry can be customized to meet specific project requirements. Manufacturers typically work closely with power generation companies to understand their needs and provide tailored solutions that meet their dimensional specifications.
Q: What are the different methods of cut-to-length shearing for steel coils?
Steel coils can be cut-to-length using various methods, each with unique advantages and applications. Some commonly used methods include: 1. Rotary Shearing: This technique utilizes a rotating shear blade to cut through the coil. It offers excellent precision and can handle a wide range of material thicknesses. Rotary shearing is well-suited for high-volume production and allows for high cutting speeds. 2. Guillotine Shearing: In this method, a straight blade is employed to cut through the coil. It is a versatile technique that can handle different material thicknesses and widths. Guillotine shearing is relatively simple and efficient, making it a popular choice for many applications. 3. Slitting: Slitting involves creating multiple longitudinal cuts in the coil to produce narrower strips. It is commonly used when a coil needs to be divided into smaller coils or when narrower strips are necessary for specific applications. Slitting can be performed using either rotary or straight blades. 4. Laser Cutting: Laser cutting employs a high-powered laser beam to melt or vaporize the material, resulting in a precise and clean cut. It is ideal for cutting complex shapes or patterns and can handle both thin and thick steel coils. Laser cutting offers high accuracy and minimal material distortion. 5. Waterjet Cutting: In this method, a high-pressure stream of water mixed with abrasive particles is used to cut through the coil. It is suitable for a wide range of materials, including steel, and can achieve high accuracy. Waterjet cutting is often utilized for cutting thick coils or when minimizing heat-affected zones is crucial. Each method has its own strengths and limitations, and the selection depends on factors such as material thickness, required precision, production volume, and specific application requirements. Choosing the most suitable method is vital to ensure efficient and high-quality cut-to-length shearing for steel coils.
Q: How are steel coils used in the production of automotive engine components?
Steel coils are used in the production of automotive engine components by being processed and shaped into various parts, such as pistons, crankshafts, and connecting rods. The coils are first cut, stamped, and formed into the desired shapes, and then undergo heat treatment and other machining processes to enhance their strength and durability. These components are crucial for the proper functioning of an automotive engine, as they provide structural support and help convert the energy generated by the combustion process into mechanical motion.
Q: every time i look for steel over the internet like to build cars motorcycles ect i only get steel pipes where can i get steel sheets
This okorder /... Most towns have a steel supply house/ business, check your yellow pages. Also check with local welding and machine shops. They can give you ideas and or their suppliers. They often have bits and pieces that you might buy, instead of ordering a full sheet of material. Wingman
Q: What are the different types of steel coil slitting machines?
There are several different types of steel coil slitting machines, including manual slitters, semi-automatic slitters, and fully automatic slitters. Manual slitters require manual adjustment and operation, while semi-automatic slitters have some automated features but still require some manual intervention. Fully automatic slitters are the most advanced type, with fully automated controls and high-speed operation.

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