hot rolled steel plate structural mild steel plate

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Quick Details

Standard:AISI, ASTM, GB, JIS
Grade:Q195,Q235,SS400,A36,Q345B
Thickness:1.5mm-200mm
Place of Origin:Tianjin, China (Mainland)
Brand Name:Zhenxiang-steel plate
Model Number:1.5mm-200mm steel plate
Type:Steel Plate
Technique:Hot Rolled
Application:Ship Plate
Special Use:High-strength Steel Plate
Width:600mm-3200mm
Length:any length
Standard:AISI, ASTM, BS, DIN, GB, JIS
Grade:Q195,Q235,SS400,A36,Q345B
Technique:Hot Rolled
MOQ:100 tons
Delivery Detail:25 days after receive payment

Packaging & Delivery

Packaging Details:	steel plate suitable for exported packing in coil coil weight arround 2 mt
Delivery Detail:	10-25 days after receive payment

Specifications

Steel Plate
1.Dimension:8-100
2.Length:1000-12000
3.Grade:Q235,SS400,A36,Q345
4.Large stock, low price, high quality

hot rolled steel plate structural mild steel plate

Q: What is the average thickness tolerance for steel sheets?: The average thickness tolerance for steel sheets can vary depending on the specific grade and manufacturing process. However, in general, the industry standard tolerance for cold-rolled steel sheets is ±0.005 inches (0.13 mm) for sheets up to 36 inches wide, and ±0.010 inches (0.25 mm) for sheets over 36 inches wide. For hot-rolled steel sheets, the average tolerance is typically higher, ranging from ±0.010 inches to ±0.060 inches (0.25 mm to 1.52 mm) depending on the thickness and width of the sheet. It is important to note that these are average values, and manufacturers may have their own specific tolerances based on customer requirements and production capabilities.

Q: Are steel sheets available in non-standard sizes?: Yes, steel sheets are available in non-standard sizes.

Q: What are the common thicknesses for corrugated steel sheets?: The common thicknesses for corrugated steel sheets range from 0.5mm to 2.0mm, with the most commonly used thicknesses being 0.7mm and 1.0mm.

Q: What is the hardness of the wear-resistant steel plate?: But not the higher the hardness, the better the wear resistance! The hardness is based wear resistant steel plate excellent wear resistance, but the relationship between the hardness and wear resistance is not proportional to the wear resistance; wear resistant steel plate, mainly because they have hard particles, and soft matrix, generally in the wear process, there will be some shedding substances, these substances will be integrated into the soft matrix that will not cause great harm to the surface; if the matrix hardness is relatively high, shedding of abrasive or other substances, the mutual movement will be mutual lapping, faster damage matrix!

Q: Are steel sheets suitable for solar panel mounting?: Steel sheets are indeed appropriate for the mounting of solar panels. As a robust and resilient material, steel can serve as a solid foundation for solar panels. Its resistance to rust and corrosion renders it particularly well-suited for outdoor installations. Moreover, steel sheets can be effortlessly shaped and sized to accommodate diverse solar panel arrangements. Furthermore, steel is widely accessible and reasonably priced, rendering it a widely favored option for solar panel mounting systems. In conclusion, steel sheets provide the essential strength, stability, and durability necessary for effectively supporting solar panels.

Q: Can steel sheets be used for wall cladding?: Certainly! Wall cladding can indeed be achieved by utilizing steel sheets. Steel, being a highly adaptable and enduring material, finds its utility in diverse applications, one of which is wall cladding. By employing steel sheets, one can obtain exceptional structural reinforcement, resistance against harsh weather conditions, and an aesthetically pleasing look. Steel sheets are frequently employed in commercial and industrial establishments, as well as residential properties, to elevate their visual appeal and safeguard the underlying structure. These sheets can be customized to meet specific design requirements and are available in a wide range of finishes, textures, and colors, making them a favored choice for wall cladding. Furthermore, steel cladding offers numerous advantages, such as fire resistance, ease of maintenance, and long-lasting performance, rendering it a perfect option for wall cladding in various environments.

Q: What is the typical flexural strength of a steel sheet?: The typical flexural strength of a steel sheet can vary depending on the specific grade and thickness of the sheet. However, on average, steel sheets have a flexural strength ranging from 300 to 500 megapascals (MPa).

Q: How can steel sheets be protected from rusting?: Steel sheets can be protected from rusting through various methods. One common way is to apply a protective coating on the surface of the steel. This can be done by painting the steel sheets with a corrosion-resistant paint or by using a galvanizing process. Galvanizing involves coating the steel sheets with a layer of zinc, which acts as a barrier against moisture and prevents the steel from coming into direct contact with oxygen and water, thus reducing the risk of rust formation. Another method to protect steel sheets from rusting is through the use of corrosion inhibitors. These inhibitors can be added to the water or oil used to cool or lubricate the steel sheets, forming a protective film on the surface. This film acts as a barrier, preventing the steel from corroding. Regular maintenance and proper storage of steel sheets is also crucial in preventing rust formation. Keeping the steel sheets in a dry environment and avoiding exposure to moisture and harsh chemicals can help prolong their lifespan and prevent rusting. Additionally, using stainless steel sheets is another effective way to avoid rusting. Stainless steel contains a high amount of chromium, which forms a passive protective layer on the surface. This layer acts as a shield against corrosion and prevents rust formation. Overall, protecting steel sheets from rusting requires a combination of protective coatings, corrosion inhibitors, proper storage, and maintenance. By implementing these measures, the lifespan of steel sheets can be significantly extended, ensuring their durability and functionality.

Q: Can steel sheets be used in the construction industry?: In the construction industry, steel sheets are commonly employed. These sheets are incredibly versatile and find extensive use in construction. They serve various purposes, including roofing, wall cladding, flooring, and structural components like beams, columns, and trusses. Steel sheets are favored owing to their exceptional strength-to-weight ratio, durability, and resistance to corrosion. They possess the ability to endure heavy loads and offer stability and structural integrity to buildings. Moreover, steel sheets can be easily fabricated, enabling customization and facilitating efficient construction processes. All in all, steel sheets are widely embraced in the construction sector due to their numerous advantages and suitability for diverse construction applications.

Q: What is the average wind load capacity of steel sheets?: The average wind load capacity of steel sheets can vary depending on various factors such as the thickness of the sheet, the type of steel used, and the specific design and installation of the structure. However, steel sheets are known for their high strength and durability, making them capable of withstanding significant wind loads. Typically, steel sheets used for roofing or cladding applications are designed to meet specific wind load requirements based on regional building codes and standards. These standards take into account factors such as the geographical location, building height, exposure category, and wind speed. To determine the wind load capacity of steel sheets, engineers and architects use calculations and simulations to analyze the forces exerted by the wind on the structure. They consider factors such as wind pressure, building orientation, surface area, and the shape and profile of the steel sheets. In summary, the average wind load capacity of steel sheets cannot be generalized as it varies based on several factors. It is crucial to consult with a structural engineer or building professional to determine the appropriate wind load capacity requirements for a specific steel sheet application.

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