• Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance System 1
  • Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance System 2
  • Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance System 3
  • Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance System 4
Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance

Prepainted Steel coils, Hot-dipped Galvanized, RAL System, with good corrosion resistance

Ref Price:
get latest price
Loading Port:
Shanghai
Payment Terms:
TT OR LC
Min Order Qty:
25 m.t.
Supply Capability:
30000 m.t./month

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FOB Price: US $630 - 938 / Ton Get Latest Price
Min. Order Quantity: 15 Ton/Tons
Supply Ability: 5000000 Ton/Tons per year
Port: Qingdao, Tianjin, China
Payment Terms: L/C, T/T, Western Union
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Company Information

Quick Details

Standard: AISI, ASTM, BS, DIN, GB, JISGrade: SGCC SGCD SGCH DX51D/52D/53DThickness: 0.22-1.0 mm
Place of Origin: Tianjin China (Mainland)Model Number: CGCC CGCL PPGI PPGLType: Steel Coil
Technique: Cold RolledSurface Treatment: CoatedApplication: Container Plate
Special Use: Wear Resistant SteelWidth: 750-1250mmLength: Coil Or Sheet (780-6000 mm ) can be done as your requirements.
Exporting Ability: 500 20ft container/each monthZinc Coating: Z40--Z180g/m2Painting: Front side paint thickness: 15-25μ M (bottom paint + top paint)
Sample: Offer Free Sample For Quality TestContainer Info: One 20ft container can hold 26tons MaxColor: As the RAL color chart
Coil I. D: 508/610 mmCoil Weight: 3.5-8 tons/each coilOther Poducts: Cold rolled, galvanized steel coils


Packaging & Delivery

Packaging Detail: (1) 4 eye bands and 4 circumferential bands in steel, (2) galvanized metal fluted rings on inner and outer edges, (3) galvanized metal & waterproof paper wall protection disk, (4) galvanized metal & waterproof paper around circumference and bore protection. (5) According to customers' requirements
Delivery Detail: 15-25 days depend on the quantity
Specifications
Color Prepainted Galvanized Steel Coils:
1. Sample: Free Sample For Test
2. Test: SGS, BV
3. Zinc Coating: Z40-Z180g/m2

Product Description


Prime Color Coated Galvanized Steel Coil
GradeQ195 SGCC SGCD DX-51D/52D/53D DC01/02/03
Thickness0.17-1.0 mm
Width750-1250mm
LengthCoil Or Sheet, can be done as your requirements
Zinc CoatingZ25-Z180 g/m2
Coil I. D508/610 mm
Coil Weight3.5-8 tons/each coil
PaintingFront side paint thickness: 15-25μ M (bottom paint + top paint)
Back side paint thickness: 5-7μ M
Color1). Can be done as the international RAL color chart.
2). Can be done as your sample color.
Other Products Cold rolled, Galvanized, steel coils and sheets

Packaging & Shipping
Standard Seaworthy Package:
(1) 4 eye bands and 4 circumferential bands in steel,
(2) galvanized metal fluted rings on inner and outer edges,
(3) galvanized metal & waterproof paper wall protection disk,
(4) galvanized metal & waterproof paper around circumference and bore protection.
(5) According to customers' requirements
Shipment Terms:
1. Payments: T/T, L/C, Western Union. Etc
2. Delivery Time: 15-25 days depend on the quantity (the shortest delivery time)
3. Container Info: 20ft container will hold 26 tons max (5 or 6 pallets).
4. Trade Terms: FOB, CFR, CIF, Etc

Q: I need to identify a metal. It is rusty so I suspect it is either iron or steel. Since they both have similar densities and are magnetic, how do I tell the difference betweeen steel and iron?
Iron is a natural ore. Google: Iron ore, click on Mineral Information Institute - Iron Ore. Steel is a man-made material, consisting of iron. Google: Sir Henry Bessemer, inventor.
Q: What are the main factors that affect the price of steel coils?
The main factors that affect the price of steel coils include the cost of raw materials, such as iron ore and scrap metal, as well as the demand and supply dynamics in the market. Other influential factors include energy costs, transportation expenses, production capacity, and geopolitical factors that can impact global trade. Additionally, fluctuations in currency exchange rates and government regulations on trade and tariffs can also influence the price of steel coils.
Q: How are steel coils processed at the steel service centers?
Steel coils are processed at steel service centers through a series of steps to transform them into finished products that meet the specific requirements of customers. The process typically begins with the arrival of the steel coils at the service center. These coils are typically large and heavy, and may have been produced by a steel mill or imported from overseas. Once the steel coils are received, they are typically inspected for quality and any defects. This ensures that only high-quality coils are used in the production process. The coils are then stored in a warehouse until they are ready to be processed. Next, the steel coils are uncoiled. This involves unwinding the coil to create a flat sheet of steel. This can be done manually or using automated machines depending on the size and thickness of the coils. The uncoiled steel is then leveled to remove any residual stress and ensure a flat and consistent surface. After leveling, the steel sheets may undergo various processes depending on the desired end product. These processes can include cutting, shearing, slitting, and forming. Cutting and shearing involve cutting the steel sheets into specific sizes or shapes. Slitting involves cutting the steel into narrow strips, while forming involves bending or shaping the steel into the desired form. Once the desired processing operations are complete, the steel sheets are often treated with surface finishes to enhance their appearance or protect them from corrosion. These finishes can include painting, coating, or galvanizing. Finally, the processed steel sheets are inspected for quality again to ensure they meet the required specifications. They are then packaged and ready for shipment to customers, who may use them in various industries such as construction, automotive, or manufacturing. Overall, the processing of steel coils at steel service centers involves a combination of inspection, uncoiling, leveling, cutting/shearing/slitting/forming, surface finishing, quality control, and packaging. This process allows for the transformation of steel coils into finished products that are tailored to meet the specific needs and requirements of customers.
Q: How many pounds can steel lift?
much too vague. Need the shape and thickness of the steel, where it is supported, and where the load is placed.
Q: So, I'm looking into steel toe paddock boots. I'll be using them around horses, horses that I don't know and that are rescue horses. I'm currently looking at Equitector the Moorland paddock boots. They're $200, and I think I have to order them online. I like boots that are this style (the Moorland style)... Is there any other brand of boots that has steel toe paddock boots, that are cheaper or that I can buy in stores?
Steel toe boots are good for working in construction or industrial type situations. But around horses, they're not necessarily the best choice. If a horse steps on you while you're wearing steel toe boots, the steel has the potential of bending and crushing your foot. And since it's steel, it won't bend back. It'll stay bent into your foot until you can find someone to help you get the boot off. I suggest buying paddock boots that are designed to be a bit safer around horses.
Q: What are the different types of welding used for steel coils?
Steel coil fabrication involves the utilization of various welding techniques, each catered to specific requirements and applications. Here, we present some commonly employed welding methods for steel coil fabrication: 1. Stick welding, also known as Shielded Metal Arc Welding (SMAW), utilizes a flux-coated electrode and an electric current to generate an arc between the electrode and the base material. SMAW is a versatile and extensively used technique suitable for a range of steel coil applications. 2. Gas Metal Arc Welding (GMAW), also referred to as MIG (Metal Inert Gas) welding, employs a continuous wire electrode and a shielding gas to safeguard the weld pool against atmospheric contamination. GMAW is renowned for its high welding speed and ease of automation, making it a favored choice for steel coil manufacturing. 3. Flux-Cored Arc Welding (FCAW) shares similarities with GMAW, but employs a tubular electrode with flux inside. The flux serves as both the shielding gas and added alloying elements, resulting in enhanced efficiency and weld quality. FCAW is often employed for high-speed welding applications in steel coil fabrication. 4. Gas Tungsten Arc Welding (GTAW), also known as TIG (Tungsten Inert Gas) welding, employs a non-consumable tungsten electrode and an inert gas, typically argon, to protect the weld area. GTAW delivers high-quality, precise welds with exceptional control over heat input, rendering it suitable for thin steel coil materials and critical welding scenarios. 5. Submerged Arc Welding (SAW) involves the use of a continuously fed wire electrode and a granular flux that covers the weld area. The arc is submerged beneath the flux, providing excellent protection and minimizing the need for post-weld cleaning. SAW is commonly employed for welding thick steel coils due to its high deposition rates and deep penetration capabilities. These examples highlight the diverse range of welding techniques employed in steel coil fabrication. The selection of the appropriate welding method depends on factors such as the specific steel grade, thickness, desired weld quality, production speed, and cost considerations. It is crucial to choose the suitable welding technique to ensure the longevity and performance of steel coils across different applications.
Q: What are the different methods of coil recoiling for steel coils?
There are several methods of coil recoiling for steel coils, including slitting, rewinding, and recoiling. Slitting involves cutting the coil into narrower strips, while rewinding involves unwinding the coil and rewinding it onto a new spool. Recoiling, on the other hand, is the process of rewinding the coil onto the same spool. These methods allow for the customization of coil width and length to meet specific requirements and facilitate easier handling and transportation.
Q: Are steel coils affected by temperature changes?
Yes, steel coils are indeed affected by temperature changes. Steel is known to expand and contract with temperature fluctuations. When exposed to high temperatures, steel coils expand, and when subjected to low temperatures, they contract. These thermal expansions and contractions can cause changes in the dimensions and shape of the steel coils, which can potentially affect their performance and functionality.
Q: What are the challenges in coil blanking for complex shapes?
Coil blanking for complex shapes presents several challenges that need to be addressed in order to achieve accurate and efficient results. One significant challenge lies in the precise positioning and alignment of the coil material. Complex shapes often require intricate cutting patterns, and any misalignment or deviation can lead to inaccurate cuts and wasted material. Another challenge is the selection and optimization of the blanking tooling. Complex shapes often require specialized dies and punches, which need to be carefully designed and manufactured to ensure accuracy and consistency. This not only involves the selection of appropriate tooling materials but also the consideration of factors such as cutting forces, wear resistance, and tool life. The complexity of the shapes also poses challenges in terms of material deformation and springback. During the blanking process, the material undergoes various deformations and stresses, which can cause distortions and dimensional variations in the final product. Achieving the desired shape while minimizing these deformations requires a thorough understanding of material properties and advanced techniques such as compensation and adjustment in the die design. Furthermore, the high-speed nature of coil blanking for complex shapes can lead to increased vibration and noise levels. The dynamic forces involved in cutting intricate shapes can result in tool chatter and excessive noise, which not only affects the quality of the cut but also the overall operational efficiency. Implementing effective damping and vibration control measures, such as tool coatings and optimized cutting parameters, is crucial to mitigate these challenges. Lastly, the complexity of the shapes can also impact the overall production efficiency. Complex shapes often require longer tool setup times and more frequent tool changes, which can lead to increased downtime and reduced productivity. Additionally, the intricate nature of the cuts may require multiple passes or additional machining operations, further adding to the production time and complexity. To overcome these challenges, manufacturers need to invest in advanced technologies, such as computer-aided design and simulation software, to optimize the blanking process. Additionally, continuous research and development efforts focused on improving tooling materials, cutting techniques, and process control can help address the challenges associated with coil blanking for complex shapes.
Q: What is the process of uncoiling a steel coil?
The process of uncoiling a steel coil involves feeding the coil into a machine called a decoiler. The decoiler holds the coil and gradually unrolls it, allowing the steel to be straightened and fed into downstream manufacturing processes. This is typically done by using a combination of motorized rollers and tension control systems to ensure a controlled and smooth uncoiling process.

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