Hot Rolled Steel Plates Steel Sheets made in China

Hot Rolled Steel Plates Steel Sheets made in China System 1

Hot Rolled Steel Plates Steel Sheets made in China

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Loading Port:: China main port

Payment Terms:: TT OR LC

Min Order Qty:: 500 m.t.

Supply Capability:: 20000 m.t./month

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Product Description:

OKorder is offering Hot Rolled Steel Plates Steel Sheets made in China at great prices with worldwide shipping. Our supplier is a world-class manufacturer of steel, with our products utilized the world over. OKorder annually supplies products to African, South American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

Product Applications:

Hot Rolled Steel Plates Steel Sheets made in China are ideal for structural applications and are widely used in construction,machinery manufacturing, container manufacturing, shipbuilding, bridge construction. Can also be used to manufacture a variety of containers, the furnace shell, furnace plate, bridge and vehicle static steel plate, low alloy steel plate,shipbuilding plate, boiler plate, pressure vessel plate, pattern plate, tractor parts, automobile frame steel plate and welding components.

Product Advantages:

OKorder's Hot Rolled Steel Plates Steel Sheets made in China are durable, strong, and wide variety of sizes.

Main Product Features:

•Hot Rolled & Annealing

•Good Quality & Fast Delivery
•Competitive Price & Nice Service

Product Specifications:

Thickness	2-100mm
Width	1250mm,1500mm,1800mm,2000mm.,2500mm or as required
Length	2000-12000mm
Standard	AISI, ASTM, BS, DIN, GB, JIS
Material	A36,SS400,SPCC,SPHC, Q195, Q 235,Q345
Tehnique	Hot rolled;cold rolled
Payment	TT ,L/C
Packing	Standard seaworthy packing or as required
Market	Mild east, North/South America, Europe, Asia,Africa etc
Certificate	BV,SGS,MTC
Delivery time	Within 7-10 days

FAQ:

Q1: Why buy Materials & Equipment from OKorder.com?

A1: All products offered byOKorder.com are carefully selected from China's most reliable manufacturing enterprises. Through its ISO certifications, OKorder.com adheres to the highest standards and a commitment to supply chain safety and customer satisfaction.

Q2: How do we guarantee the quality of our products?

A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.

Q3: How soon can we receive the product after purchase?

A3: Within three days of placing an order, we will arrange production. The normal sizes with the normal grade can be produced within one month. The specific shipping date is dependent upon international and government factors, the delivery to international main port about 45-60days.

Images:

Hot Rolled Steel Plates Steel Sheets made in China

Q:Do steel sheets have any environmental benefits?: Yes, steel sheets have several environmental benefits. Firstly, steel is highly recyclable, meaning that it can be reused multiple times without losing its strength or quality. This reduces the need for virgin raw materials and reduces the amount of waste being sent to landfills. Additionally, steel production has become more energy-efficient, resulting in lower greenhouse gas emissions compared to other materials. Steel sheets are also highly durable and resistant to corrosion, which means they have a longer lifespan and require less maintenance, reducing the overall environmental impact.

Q:How are steel sheets protected during cutting and fabrication?: To ensure the quality and prevent damage, various methods are employed to protect steel sheets during cutting and fabrication. One widely used approach is galvanizing, which entails applying a zinc coating to the surface of the steel sheet. This zinc coating acts as a barrier against corrosion and other forms of harm, making it particularly effective in outdoor settings where steel sheets are exposed to moisture and harsh elements. Another technique for safeguarding steel sheets during cutting and fabrication involves the use of lubricants or coolants. These substances are applied to both the cutting tools and the steel sheet itself to reduce friction and minimize heat generation. By doing so, lubricants and coolants help prevent warping and distortion of the steel sheet during the cutting and fabrication process. Moreover, protective films or tapes are often utilized during the fabrication of steel sheets. These films or tapes shield the sheets from scratches, abrasions, and other physical damage that may occur during handling or transportation. In addition to these methods, proper handling and storage practices play a crucial role in protecting steel sheets during cutting and fabrication. It is essential to store the sheets in a controlled environment to prevent exposure to damaging elements such as moisture and extreme temperatures. Additionally, they should be handled with care to avoid impacts or bending that could compromise their structural integrity. In summary, steel sheets are protected during cutting and fabrication through the combined use of surface coatings, lubricants or coolants, protective films or tapes, and proper handling and storage practices. These measures ensure the quality and durability of the sheets, allowing them to maintain their integrity throughout the fabrication process and beyond.

Q:What are the different alloying elements used in steel sheets?: Some of the commonly used alloying elements in steel sheets include carbon, manganese, silicon, chromium, nickel, molybdenum, vanadium, and tungsten. These elements are added in varying quantities to enhance specific properties of the steel, such as strength, hardness, corrosion resistance, and heat resistance.

Q:Are steel sheets suitable for flooring applications?: Yes, steel sheets are suitable for flooring applications. Steel sheets are known for their durability, strength, and resistance to wear and tear. They can provide a stable and long-lasting flooring option in various settings, including industrial, commercial, and even residential spaces. Additionally, steel sheets can be easily customized to meet specific design requirements, making them versatile for flooring applications.

Q:What are the different sheet metal joining techniques for steel sheets?: Steel sheets can be joined using various techniques. Welding is commonly used, where the edges of the sheets are melted and fused together using heat and pressure. Different welding techniques like arc, spot, or laser welding can be used depending on the requirements. Riveting is another method, involving the use of metal fasteners called rivets. Holes are drilled in the sheets, and the rivets are inserted and deformed to secure the joint. This technique is suitable for structural applications due to its strength and durability. Bolting involves using bolts and nuts to connect the sheets. Holes are drilled, and bolts are inserted through them, with nuts tightened on the other side. Bolting allows for easy disassembly and reassembly, making it suitable for applications requiring frequent maintenance or repairs. Adhesive bonding is a technique where a strong glue is used to bond the sheets. The adhesive is applied between the surfaces, and pressure is applied for proper bonding. This method provides a clean and aesthetically pleasing joint without the need for drilling holes or using fasteners. Clinching is a cost-effective and quick method for joining steel sheets. It involves deforming the sheets using a punch and die, creating a mechanical interlock. This technique does not require additional materials and is suitable for various applications. The choice of joining technique depends on factors such as the specific application, required strength, durability, cost, and ease of assembly. Each technique has its own advantages and limitations.

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:Are steel sheets suitable for high-vibration environments?: Yes, steel sheets are suitable for high-vibration environments. Steel is a strong and durable material that can withstand vibrations without experiencing significant deformation or damage. It is commonly used in industries such as construction, automotive, and aerospace, where high-vibration environments are common. Additionally, steel sheets can be designed and manufactured to have vibration-damping properties, further enhancing their suitability for such environments.

Q:How are steel sheets protected during storage and handling?: To safeguard steel sheets and guarantee their quality, a range of methods are employed during storage and handling. A frequently utilized technique involves applying a protective coating or oil to shield the sheets from moisture and other environmental factors that may lead to corrosion or rust. To shield steel sheets from direct sunlight, rain, and adverse weather conditions, they are frequently stored in covered warehouses or designated storage areas. This precautionary measure prevents any potential harm to the sheets and preserves their structural integrity. For transportation and handling, cranes or forklifts equipped with suitable lifting apparatus are commonly used to lift the steel sheets, minimizing the risk of bending or twisting. Moreover, the sheets are meticulously secured and stacked in a manner that reduces the likelihood of damage or deformation. Furthermore, steel sheets are often packaged with materials like plastic or cardboard to provide additional protection against scratches and physical harm. They may also be wrapped or sealed to prevent contact with moisture or contaminants. Overall, the objective is to maintain the quality of steel sheets and prevent any potential damage that could compromise their performance in future applications by ensuring they are stored and handled in a secure and controlled environment.

Q:What is the process of manufacturing steel sheets?: Manufacturing steel sheets encompasses a series of steps. Initially, the necessary raw materials for steel production, including iron ore, coal, and limestone, are acquired. Following this, these materials undergo processing in a blast furnace to generate molten iron. The molten iron is then refined in either a basic oxygen furnace or an electric arc furnace, eliminating impurities and incorporating alloying elements to attain the desired steel composition. Upon completion of the refining process, the steel is cast into slabs or billets, which are subsequently reheated in a furnace until they reach a suitable temperature for rolling. The reheated steel is then fed through a sequence of rolling mills, where it is shaped and its thickness is reduced to form a continuous sheet. The rolling process comprises multiple passes through the mills, gradually diminishing the steel's thickness and enhancing its properties. After the rolling process, the steel sheets are frequently subjected to pickling and treated with various coatings or finishes to enhance their surface quality and resistance to corrosion. Finally, the sheets are cut into specific sizes and may undergo additional processing, such as tempering or annealing, to further enhance their mechanical properties. In summary, the production of steel sheets involves a combination of refining, casting, rolling, and finishing processes to create superior-quality sheets that meet the desired specifications.

Q:What is the process of embossing on steel sheets?: The process of embossing on steel sheets involves creating raised or recessed designs on the surface of the steel. This technique is commonly used to add texture, improve aesthetics, or enhance the mechanical properties of the steel. The first step in the embossing process is preparing the steel sheets. This typically involves cleaning the surface to remove any dirt, oils, or coatings that may interfere with the embossing process. The steel sheets are then carefully inspected for any imperfections or surface defects that could affect the embossing quality. Once the steel sheets are prepared, they are placed in an embossing machine, which consists of two or more rollers. These rollers have engraved patterns on their surfaces, which will be transferred onto the steel sheets. The rollers are typically made of hardened steel or other materials that are resistant to wear and tear. As the steel sheets pass through the embossing machine, pressure is applied to the rollers, causing them to press against the steel surface. This pressure creates a plastic deformation in the sheet, resulting in the desired raised or recessed pattern. The depth and intensity of the embossing can be adjusted by controlling the pressure applied by the rollers. In some cases, heat may be applied during the embossing process to soften the steel sheets and make them more malleable. This allows for deeper and more intricate embossing patterns to be achieved. The temperature and duration of the heating process will depend on the specific type of steel being used and the desired outcome. After the embossing process is complete, the steel sheets may undergo additional treatments such as cleaning, coating, or polishing to further enhance their appearance and protect them from corrosion. These finishing steps help to ensure that the embossed steel sheets meet the desired quality standards and are ready for their intended application. Overall, the process of embossing on steel sheets is a versatile and effective way to add texture and visual interest to the surface of the steel. It requires careful preparation, precision machinery, and skilled operators to achieve consistent and high-quality results.

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