Prime Z100 Color Quoted Galvanized Sheet
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 25 m.t.
- Supply Capability:
- 1000 m.t./month
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Prime Z100 Color Quoted Galvanized Sheet
Specification
Width: 600-1250mm
Length: Any Length Based on Coil Weight or by Requested
Product Name: Prime Z100 Color Quoted Galvanized Sheet
Key Word: Galvanized
Substrate Steel: Galvanized/Alum-zinc/Electic Galvanized/Cold Rolled Steel
Coating: Z30-Z180/AZ30-AZ100
Paint Thickness: Top Side:14-25um Back:5-10um
Type of Finish Paint: PE/SMP/HDP/PVDF
Color: Choose from RAL Code or by Client's Requested
Standard: AISI, ASTM, DIN, GB, JIS
Steel Grade: CGCC,TDC51D+Z, CGCC,TDC51D+Z
Thickness: 0.13-1.5mm
Application:
Automotive,Light Industry,Construction,Household Appliances, Automotive,Light Industry,Construction,Household Appliances
Supply Ability
Product category | CR | GI/GL | PPGI/PPGL | Corrugated Steel Sheet | CRNGO |
Production lines | 4 | 4 | 3 | 2 | 1 |
Production capacity(MT/year) | 550000 | 700000 | 450000 | 28000 | 200000 |
Pictures
- Q: How does the thickness of a steel coil affect its applications?
- The applications of a steel coil are significantly affected by its thickness. The thickness of the coil is what determines its strength, durability, and versatility, thus making it suitable for various uses in different industries. In industries where strength is of utmost importance, such as construction, thicker steel coils are preferred. Thicker coils provide higher structural integrity and load-bearing capacity, which are essential in projects involving buildings, bridges, and infrastructure. Moreover, thicker steel coils offer better resistance against bending, warping, and other forms of deformation, making them ideal for heavy-duty applications. The durability of a steel coil is also influenced by its thickness. Thicker coils exhibit greater resistance to wear, corrosion, and damage, making them suitable for harsh environments or applications that involve constant friction or exposure to elements. For instance, thicker steel coils are commonly utilized in the manufacturing of heavy machinery, automotive parts, and mining equipment, where durability is of paramount importance. Furthermore, the thickness of a steel coil determines its versatility and adaptability. Thinner coils can be easily shaped into different forms and sizes, making them suitable for applications that require intricate designs or tight tolerances. Industries such as automotive, aerospace, and consumer electronics often rely on thinner steel coils due to their lightweight and flexible nature. On the other hand, the weight and reduced flexibility of thicker steel coils may limit their range of applications. They are better suited for applications that prioritize strength and durability over versatility. These applications include structural components, large-scale machinery, and industrial equipment. To summarize, the thickness of a steel coil plays a pivotal role in determining its applications. Thicker coils offer increased strength, durability, and resistance, making them ideal for heavy-duty applications in the construction and manufacturing industries. Conversely, thinner coils provide versatility and adaptability, making them suitable for applications that require intricate designs or lightweight properties.
- Q: I'm writing a story, and trying to find out how hot it needs to be for steel to turn into a gas.
- Steel is to broad. There are many types of steel with different melting/boiling points. Iron* has a boiling point of 5182 °F and a Heat of vaporization of 340 kJ·mol?1. iron is the main ingredient of steel, along with carbon and other various elements.
- Q: What are the factors to consider when selecting steel coils for a specific application?
- When selecting steel coils for a specific application, there are several factors that need to be considered. These factors include the type of application, the required strength and durability, the desired aesthetic appearance, the budget, and any specific industry standards or regulations that need to be met. Firstly, it is important to determine the type of application for which the steel coils will be used. Different applications may require different types of steel with varying properties. For example, if the coils will be used in structural construction, high-strength steel with excellent structural integrity may be required. On the other hand, if the coils will be used in automotive manufacturing, steel with good formability and weldability may be more suitable. The required strength and durability is another crucial factor to consider. This includes factors such as the load-bearing capacity, resistance to corrosion, and ability to withstand extreme temperatures or environmental conditions. The steel coils must be able to withstand the specific stresses and strains that will be placed upon them in the intended application. The desired aesthetic appearance is also important, especially in applications where the steel coils will be visible. Factors such as the surface finish, color, and texture of the steel coils may need to be considered. This is particularly relevant in industries such as architecture or interior design, where the visual appeal of the steel is a key consideration. Budgetary constraints should also be taken into account when selecting steel coils. Different grades and types of steel can vary significantly in price. It is important to find a balance between the desired properties and the available budget. Sometimes, it may be necessary to compromise on certain factors in order to meet budgetary constraints. Lastly, any specific industry standards or regulations should be considered when selecting steel coils. Certain industries, such as aerospace or automotive, may have strict requirements for the materials used in their products. In such cases, it is crucial to ensure that the selected steel coils meet all necessary standards and regulations. In conclusion, when selecting steel coils for a specific application, factors such as the type of application, required strength and durability, desired aesthetic appearance, budget, and industry standards or regulations should all be carefully considered. By taking these factors into account, one can make an informed decision and choose the most suitable steel coils for their specific application.
- Q: What are the common surface defects found in steel coils?
- Some common surface defects found in steel coils include rust, scratches, dents, pits, and mill scale.
- Q: What are the different methods of corrosion protection for steel coils?
- There are several methods of corrosion protection for steel coils, including but not limited to: 1. Coating: Applying a protective layer such as paint, polymer, or zinc coating on the surface of the steel coil to prevent direct contact with corrosive agents. 2. Galvanizing: Immersing the steel coil in a bath of molten zinc, creating a protective coating that prevents corrosion. 3. VCI (Vapor Corrosion Inhibitor): Using volatile corrosion inhibitors that release molecules to form a protective layer on the steel coil, preventing corrosion. 4. Oil or Wax Coating: Applying a layer of oil or wax on the surface of the steel coil to act as a barrier against moisture and corrosive elements. 5. Cathodic Protection: Using sacrificial anodes or impressed current to protect the steel coil by providing a more easily corroded metal that attracts corrosion instead. 6. Desiccants: Placing desiccant materials such as silica gel or molecular sieves inside the packaging to absorb moisture and prevent corrosion. 7. Environmental Control: Maintaining controlled humidity levels, temperature, and proper ventilation in storage areas to minimize the risk of corrosion. 8. Proper Handling and Storage: Implementing safe handling practices during transportation and storing steel coils in dry, covered areas away from corrosive substances. It is important to select the appropriate method based on the specific application, environment, and desired level of protection for the steel coils.
- Q: What are the common coil handling equipment used in the industry?
- Some common coil handling equipment used in the industry include coil cradles, coil reels, coil cars, coil upenders, and coil transfer conveyors. These machines are essential for efficiently handling and transporting coils of various materials, sizes, and weights in manufacturing and processing operations.
- Q: i would like to make a dmascus steel knife, i have the cable but im not sure if its damascus steel or not, how do i tell? and if it isnt damascus steel how do i make a bar of it?
- Here's what you need, the cable should be a minimum of 9/16 with large wires. You need some borax (20 mule team from the store). A good hot coal, coke, or gas forge. If the cable has fiber rope in the center it will need to be removed. Fuse the ends of the cable to keep them from coming apart. I use my welder and while I'm at it I weld a handle to make it easier. Heat it in the forge when the forge is properly heated, rotate it. Some people will burn the oil out, but I've found that the forge does that just fine. Rotate the cable while it's heating. When it begins the turn red pull it out and sprinkle the borax over it, don't hold back use a lot. It will begin to melt and bubble into the steel. Put the cable back in the forge, rotate and watch. This is the critical part. When the steel starts to turn from orange/yellow to almost yellow/white take it out and lightly (I use a 2lb hammer) begin hammering the cable into a square or rectangle. If you do it right you'll notice that it will begin to fight the hammer, that's when you know the weld it taking place. You'll have to repeat the process down the length of the cable. Once you have the billet made you can begin the process of shaping the edge and tang. Once you have it shaped, follow proper forge procedure then grind all the yuck off and finish shaping. Then harden and temper and finish it out. Good luck. I almost forgot a very important part. Befor you start hammering put the cable in a vice while at welding temp (if you are strong you can use a couple of plyers) and twist it tight. On the next heat hold the cable in your left and and lay it on the anvil. Concentrate on your light hammer blows being on your side of the cable. This forces the cable strands together. If you are using smaller cable like 9/16 you can double the cable up and weld two peices together, it is easier and makes for a prettier blade. Doing this you don't have to worry about twisting the cable and you can hit it much harder to start with.
- Q: What are the safety precautions to be followed while handling steel coils?
- When handling steel coils, there are several safety precautions that should be followed. These include wearing appropriate personal protective equipment, such as gloves and safety glasses, to protect against cuts, abrasions, and eye injuries. It is important to use proper lifting techniques and equipment to prevent strains or back injuries. Steel coils should be securely stacked and stored to prevent them from falling or rolling, and caution should be exercised when moving or transporting them to avoid accidents. Additionally, workers should be trained on the safe handling and storage procedures specific to steel coils to minimize any potential hazards.
- Q: What are the safety regulations for steel coil production facilities?
- The safety regulations for steel coil production facilities typically include measures such as proper training and certification for employees, regular equipment inspections and maintenance, use of personal protective equipment, implementation of fire prevention and evacuation plans, adherence to hazardous material handling protocols, and compliance with occupational health and safety standards. These regulations aim to minimize the risk of accidents, injuries, and environmental hazards within the facility.
- Q: How do steel coils differ in terms of size and weight?
- The size and weight of steel coils can vary greatly depending on their intended use and production process. When it comes to size, a steel coil is typically measured by its outer diameter, inner diameter, and width. The outer diameter refers to the total diameter of the coil, while the inner diameter refers to the diameter of the hollow center. The width, on the other hand, is the distance between the two flat sides. In terms of weight, steel coils can range from a few hundred pounds to several tons. The weight primarily depends on the size and type of steel used. Coils made from high-strength steel are generally heavier because they have a higher density. On the contrary, coils made from lower-grade steel can be lighter. The size and weight of steel coils play a crucial role in their transportability and handling. Smaller and lighter coils are easier to handle and transport, making them suitable for applications that require maneuverability. On the flip side, larger and heavier coils are commonly used in industries that prioritize strength and durability, like construction and automotive manufacturing. All in all, steel coils come in various sizes and weights, allowing for customization and meeting specific requirements in different industries.
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Prime Z100 Color Quoted Galvanized Sheet
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 25 m.t.
- Supply Capability:
- 1000 m.t./month
OKorder Service Pledge
OKorder Financial Service
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