carbon steel plate china structural steel plate

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Payment Terms:: TT OR LC

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Quick Details

Standard:AISI, ASTM, DIN, 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

carbon hot rolled structural steel plate

Q: What are the common surface treatments for steel sheets?: Common surface treatments for steel sheets include galvanizing, which involves applying a protective layer of zinc to prevent rusting; painting, which provides a decorative finish and additional corrosion resistance; and powder coating, which involves applying a dry powder to the surface and then curing it to create a durable, protective coating. Other treatments may include electroplating, chromating, or phosphating, depending on the specific requirements and intended use of the steel sheets.

Q: Can the steel sheets be cut easily?: With the correct tools and techniques, steel sheets can be easily cut. Despite its strength and durability, steel can still be cut through methods like shearing, sawing, or by utilizing plasma or laser cutting machines. The ease of cutting steel sheets is influenced by factors such as thickness and the particular type of steel employed. Generally, thinner sheets are more manageable to cut compared to thicker ones. Moreover, employing suitable cutting tools and adhering to safety precautions will guarantee a seamless and effective cutting process.

Q: What type of welding rod is used for steel Q245R and Q235B material?: Q245R is generally used in boiler or pressure vessel, if it is a large diameter cylinder welding body in wall thickness below 8mm recommended the use of arc welding J507 welding rod, double welding, carbon arc gouging back, to obtain qualifiedQuality; when the wall thickness is thicker, submerged arc welding can be used and welding with H08MnA welding wire and HJ431 flux is used;

Q: How do steel sheets perform in electrical resistance?: Steel sheets have relatively high electrical resistance compared to other metals, such as copper or aluminum. This means that they are not good conductors of electricity and will impede the flow of electrical current. However, steel sheets can still be used in certain applications where electrical resistance is desired, such as in electrical enclosures or grounding systems.

Q: Can steel sheets be used for manufacturing electronics?: Yes, steel sheets can be used for manufacturing electronics, although they are not commonly used due to their magnetic properties which can interfere with electronic components. Other materials like aluminum or plastic are usually preferred for electronics manufacturing.

Q: Can steel sheets be used for electrical conductivity applications?: No, steel sheets are not typically used for electrical conductivity applications. While steel is a good conductor of heat and has some electrical conductivity, it is not as efficient as other materials specifically designed for electrical conductivity, such as copper or aluminum. Steel sheets are commonly used in applications where strength, durability, and corrosion resistance are important, such as construction, automotive manufacturing, and industrial equipment. For electrical conductivity applications, it is more common to use materials with higher conductivity, such as copper or aluminum. These materials have lower resistance and are better suited for conducting electricity efficiently.

Q: What are the different types of steel sheet coatings?: There are several different types of steel sheet coatings, including galvanized coatings, tin coatings, and polymer coatings.

Q: How do steel sheets handle chemical exposure?: Steel sheets are renowned for their outstanding ability to resist chemical exposure. They exhibit a high level of resistance to corrosion and can endure exposure to a wide array of chemicals, including acids, alkalis, solvents, and other substances that cause corrosion. This exceptional resistance is primarily attributed to the formation of a protective oxide layer, known as patina, on the surface of the steel. This layer acts as a barrier, preventing the chemicals from attacking the steel. Moreover, steel sheets can be further safeguarded by applying various protective coatings, such as galvanization, epoxy coatings, or powder coatings. These coatings provide an extra layer of protection and enhance the steel's resistance to chemical exposure. However, it is important to acknowledge that the resistance of steel sheets to chemical exposure may vary based on the specific type and concentration of the chemicals involved. Highly concentrated or aggressive chemicals may still lead to some degree of corrosion or damage to the steel surface over time. Hence, it is crucial to carefully consider the specific chemical environment and select the appropriate grade of steel and protective coating to ensure optimum resistance to chemical exposure. In summary, steel sheets are a dependable and durable choice for applications that demand resistance to chemical exposure. With careful selection and maintenance, they can effectively withstand diverse chemical environments and deliver long-lasting performance.

Q: Can steel sheets be used for manufacturing doors or windows?: Yes, steel sheets can be used for manufacturing doors or windows. Steel is a durable and strong material that provides excellent security and resistance to harsh weather conditions, making it a popular choice for door and window manufacturing.

Q: Are steel sheets suitable for electrical transformer cores?: Yes, steel sheets are suitable for electrical transformer cores. Steel is a commonly used material for transformer cores due to its magnetic properties and ability to efficiently conduct magnetic flux. The laminated steel sheets used in transformer cores are typically made from high-grade electrical steel, also known as silicon steel or transformer steel. This type of steel has low core losses and high magnetic permeability, making it an ideal choice for transformer applications. The laminated structure of the steel sheets helps reduce eddy current losses by creating a path of high electrical resistance. These sheets are coated with an insulating varnish to further minimize eddy current losses and prevent electrical short circuits. The laminations are then stacked together to form the core, providing a low reluctance path for the magnetic field generated by the transformer's primary winding. The use of steel sheets in transformer cores ensures efficient energy transfer by minimizing energy losses. The magnetic properties of steel contribute to the transformation and regulation of electrical power, allowing transformers to step up or step down voltage levels while maintaining high efficiency. Additionally, steel sheets offer excellent mechanical strength and stability, ensuring the long-term durability of transformer cores. In summary, steel sheets are highly suitable for electrical transformer cores due to their magnetic properties, low core losses, high magnetic permeability, and mechanical strength. These properties enable efficient energy transfer, voltage regulation, and long-term reliability in transformer applications.

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