EDD A653 Hot-Dip Galvanized Steel Coil for cold forming good use CNBM
- Ref Price:
-
- Loading Port:
- Guangzhou
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 20 m.t.
- Supply Capability:
- 3000 m.t./month
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Quick Details
Standard: DIN
Grade: HX160YD/HX180/BD/HX300LAD
Type: Steel Coil
Surface Treatment: Galvanized
Application: High proof strength for cold forming
Width: 600-1534mm
Length: Coil
Packaging & Delivery
| Packaging Details: | one coil per bundle, inner is the protecting humidity-proof wax paper. Medium is plastic film. Outer is sackcloth or compound paper packing. Coil to be laid on single type pallet (one pile per pallet) |
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| Delivery Detail: | Depends on specification and order quanity. |
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Specifications &Feature:
Grade: 200, 300 Series
Standard: GB, ASTM, AISI, JIS, EN, DIN
Technical Treatment: Hot Rolled, Cold Rolled, ect.
Surface: No.1, 2B, 2D, BA, NO.4, NO.6, NO.8
Length: according to customers’ requirements
Thickness: Cold rolled: 0.6 - 2.5mm Hot rolled: 2.5mm - 5.0mm
Width: 1020 - 1550mm / 400 - 680mm, or according to customers’ requirements
Edge: Mill Edge
Origin: Jinhui
MOQ: 1Ton
Payment term: T/T, L/C
Packaging: Standard export packaging
Application: Decoration, Construction
| Durability: | 15 to 20 years |
| Thickness tolerance: | +/-0.03mm |
| Width tolerance: | +/-5mm |
| Coil weight: | 3 to 8 mt |
| Origin: | China |
| Packing: | Mill's standard package (water proof paper+plastic cover+ steel sheet cover+steel strips) |
What is the application of Steel Coil?
There are two sides,one is out side: Workshop, agricultural warehouse, residential precast unit, corrugated roof, roller shutter door, rainwater drainage pipe, retailer booth;the other is inside: Door, doorcase, light steel roof structure, folding screen, elevator, stairway, vent gutter.
- Q: Can steel coils be painted?
- Yes, steel coils can be painted. Painting steel coils is a common practice to enhance their appearance, protect them from corrosion, and provide additional durability. The coils are typically cleaned, prepped, and coated with a primer before applying the desired paint color.
- Q: I know this is an alloy, but can it be mixed to form a superior steel? Therefore less likely to stain?
- Unfortunately the stainless property does not make a 100% superior blade, unless you are not too concerned with how it performs. Generally speaking the mineral that allows steel not to stain is chromium so the higher content of chromium the more shiny and less likely to stain. The best performing blades however are the ones resistant to fatigue that usually contain high silica levels like japanese blades. Chromium on the other hand does make a less flexible and lower quality blade that also needs to be thicker, so it comes down to what will you be using it for.
- Q: What are the common coil thickness and width combinations available for steel coils?
- The common coil thickness and width combinations available for steel coils can vary depending on the specific requirements and standards of the industry. However, there are some commonly found combinations that are widely used.
In terms of coil thickness, common options range from thin to thick coils. Thin coils typically have a thickness ranging from 0.4mm to 3.0mm, while medium thickness coils can be around 3.0mm to 6.0mm. For thicker coils, the range can be from 6.0mm to 25.0mm or even higher, depending on the specific application.
Regarding coil width, it also varies based on the intended usage. Some common options include coils with widths of 600mm, 750mm, 900mm, 1000mm, 1200mm, 1250mm, and 1500mm. However, wider or narrower coils can also be available depending on the specific requirements of the customer or industry.
Ultimately, the most suitable coil thickness and width combination will depend on factors such as the intended application, manufacturing processes, transportation limitations, and customer preferences. It is essential to consult with steel coil manufacturers or suppliers to determine the most appropriate options for your specific needs.
- Q: How do steel coils impact the overall cost of production?
- Steel coils have a significant impact on the overall cost of production in a variety of industries. Firstly, the cost of steel coils themselves can be a significant expense. The price of steel is influenced by various factors such as supply and demand, raw material costs, and market fluctuations. Any increase in the cost of steel coils can directly impact the overall production cost, as it becomes a major component in the manufacturing process.
Moreover, steel coils also affect the operational costs of production. They are typically used in various manufacturing processes, such as stamping, rolling, and forming, which require specialized machinery. The durability, quality, and size of the steel coils play a vital role in determining the efficiency and effectiveness of these processes. If the steel coils are of low quality or not suitable for the specific production requirements, it can lead to increased downtime, machinery maintenance, and rework, all of which contribute to higher production costs.
In addition, transportation costs associated with steel coils can also impact the overall cost of production. Steel coils are usually heavy and bulky, necessitating special handling and transportation arrangements. The distance between the supplier and the production facility, as well as the mode of transportation, can significantly influence the logistics costs. Any increase in transportation expenses, such as fuel prices or shipping fees, can directly impact the overall cost of production.
Lastly, the availability of steel coils can also impact production costs. In times of high demand or limited supply, the price of steel coils may increase, leading to higher production costs. Furthermore, if there is a shortage of steel coils due to factors like trade restrictions or disruptions in the supply chain, manufacturers may have to resort to alternative materials or sources, which could be more expensive or lower in quality. These factors can have a cascading effect on the overall cost of production.
Overall, steel coils have a significant impact on the overall cost of production. Their cost, quality, transportation, and availability all influence the efficiency, effectiveness, and affordability of the manufacturing process. Therefore, manufacturers need to carefully consider and manage these factors to optimize their production costs and maintain competitiveness in their respective industries.
- Q: What are the different grades of steel used in coils?
- There are several different grades of steel used in coils, including low carbon steel, medium carbon steel, high carbon steel, and alloy steel. Each grade has specific properties and characteristics that make it suitable for various applications, such as automotive, construction, or manufacturing industries. The grade of steel chosen for coil production depends on factors such as strength requirements, formability, corrosion resistance, and cost considerations.
- Q: How are steel coils inspected for straightness?
- To ensure compliance with quality standards, steel coils undergo a variety of methods to inspect their straightness. Among these, visual inspection is commonly employed, wherein trained inspectors meticulously examine the coil's edges, surface, and overall shape for any visible flaws or irregularities that might indicate a lack of straightness.
An alternative approach involves measuring the coil's straightness using precise instruments. This entails taking measurements at different points along the coil's length and comparing them to specified tolerances. Accurate assessment of the deviation from the desired straightness is achieved using techniques like laser measurements or straightness gauges.
Moreover, certain coils undergo non-destructive testing, such as magnetic particle inspection or ultrasonic testing, to uncover any internal defects or stresses that may impact their straightness. These tests are capable of identifying hidden flaws that visual inspection alone may fail to detect.
Additionally, some manufacturers employ automated inspection systems that leverage advanced technologies like computer vision or artificial intelligence. These systems swiftly scan the coil's surface and analyze it for any deviations from straightness, generating precise measurements and ensuring consistent quality.
In summary, the inspection of steel coils to verify their straightness involves a combination of visual inspection, precise measurements, non-destructive testing, and advanced technologies. These methods work together to identify any deviations from the specified straightness, ensuring that only coils meeting the required standards are utilized in various applications.
- Q: What are the dimensions of steel coils used in automotive part manufacturing?
- The dimensions of steel coils utilized in the manufacturing of automotive parts may differ based on the particular application and manufacturer involved. Nonetheless, typical dimensions for steel coils in automotive part production lie within the range of 0.5 to 3 millimeters in thickness and 600 to 2000 millimeters in width. Additionally, the length of the coils can vary considerably, generally spanning from a few meters to several hundred meters. It is crucial to acknowledge that these dimensions are not set in stone and can be tailored to satisfy the specific demands of each automotive part being produced.
- Q: What are the common methods of testing the strength of steel coils?
- Common methods of testing the strength of steel coils include tensile testing, hardness testing, and bend testing.
Tensile testing involves subjecting the steel coil to tension until it reaches its breaking point. This test measures the maximum amount of force the coil can withstand before it fractures. It provides valuable information about the tensile strength, yield strength, and elongation properties of the steel.
Hardness testing is another common method used to determine the strength of steel coils. It measures the resistance of the steel to indentation or scratching. Various methods, such as Rockwell, Brinell, or Vickers tests, are employed to measure the hardness of the steel. Hardness testing provides information about the material's ability to resist deformation or wear.
Bend testing is performed to evaluate the ductility and flexibility of the steel coil. In this test, the coil is bent to a specific angle and inspected for signs of cracking or fracturing. Bend testing helps determine the material's ability to withstand bending or forming processes without failure.
Other methods of testing the strength of steel coils may include impact testing, where a controlled impact is applied to the coil to assess its resistance to sudden loading conditions, and fatigue testing, which involves subjecting the coil to cyclic loading to determine its endurance limit and potential for failure under repeated stress.
It is important to note that the specific testing methods employed may vary depending on the intended application and industry standards. Additionally, non-destructive testing techniques, such as ultrasonic testing or magnetic particle inspection, can be used to detect internal defects or flaws in steel coils without causing damage to the material.
- Q: Can steel coils be coated with zinc-nickel alloy?
- Yes, steel coils can be coated with zinc-nickel alloy.
- Q: What are the dimensions of steel coils used in the metal container industry?
- The dimensions of steel coils used in the metal container industry can vary depending on the specific application and requirements. However, common dimensions for steel coils used in this industry range from 0.5 to 3.5 millimeters in thickness and 600 to 2,000 millimeters in width. The length of the coils can vary based on the manufacturer and customer specifications.
