Hot Rolled Steel Billet 3SP Standard 185mm
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
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OKorder Financial Service
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Structure of Hot Rolled Steel Billet 3SP Standard 185mm
Description of Hot Rolled Steel Billet 3SP Standard 185mm
Prepainted Rolled steel Coil is a kind of coated steel coil/sheet. With the cold rolled steel of different strength and thickness as substrate, it is produced through applying Al-Zn coat on both faces by hot dip process. In its coating, Al accounts for about 55%, Si 1.6%, while the remaining is Zn. Aluminum zinc coils enjoys both the physical protective feature and durability of Al and the electrochemical protective property of Zn. And its surface has bright silver color and regular embossed-like figure, which are highly decorative. RAL Scale Z35 Prepainted Rolled Steel Coil for Construction Roofing
Main Feature of Hot Rolled Steel Billet 3SP Standard 185mm
1.Corrosion resistance: It mainly depends on the zinc protection. When the zinc being worn,
2. Heat resistance: steel sheet has excellent heat resistance, can withstand high temperatures over 300 centigrade, and is similar with aluminized steel high temperature oxidation resistance. It often used in chimney pipes, ovens, fluorescent lighting device and the device cover.
3. Heat reflective: Galvanized steel plate heat-reflective high rate is twice as galvanized steel, often used to make insulation materials. RAL Scale Z35 Prepainted Rolled Steel Coil for Construction Roofing
Applications of Hot Rolled Steel Billet 3SP Standard 185mm
1. Construction and building: roofing; ventilating duct; handrail; partition panel;etc.
2. Electric appliance: refrigerator; washing machine; refrigerator; DVD;etc.
3.Transportation: oil tank; gas tank;road sign; etc.
4.Agriculture constructions :barn; etc.RAL Scale Z35 Prepainted Rolled Steel Coil for Construction Roofing
5.Others:vending machine; game machine; auto parts spare parts etc.
Specifications of Hot Rolled Steel Billet 3SP Standard 185mm
Product | Hot Rolled Steel Billet 3SP Standard 185mm |
Material Grade | SGCC / SGCH / DX51D+AZ, etc |
Thickness | 0.5-3.0mm |
Width | 700-1500mm |
Tolerance | Thickness: +/-0.02mm , Width:+/-2mm |
Zinc-coating | AZ30-150g/m2 |
Technique | Raw material: Hot rolled steel coil --> Cold rolled_>hot dipped galvalume |
Surface | Dried, Chromated, Unoiled,RAL Scale Z35 Prepainted Rolled Steel Coil for Construction Roofing |
Spangle | Regular spangle , small spangle, zero spangle |
ID | 508MM 610MM |
Coil weight | 25MT max |
Export package | Cardboard inner sleeves, Waterproof paper, galvanized steel covered and steel strip packed |
FAQ of Hot Rolled Steel Billet 3SP Standard 185mm
We have organized several common questions for our clients,may help you sincerely:
1. What is the minimum order quantity ?
Our MOQ is 100 mt for each size each specification. Usually we can offer discount if can buy large QTY once. RAL Scale Z35 Prepainted Rolled Steel Coil for Construction Roofing
2. How long can we receive the product after ordering?
Our general delivery time is 30 days after confirmation, but so some special orders, we have offer special delivery time
3. How to guarantee the quality of the products?
We have established the international advanced quality management system ,every link from raw material to final product we have strict quality test;We resolutely put an end to unqualified products flowing into the market. At the same time, we will provide necessary follow-up service assurance.
4. What is the payment?
We accept T/T, L/C
- Q:How are steel billets used in the production of beams and columns?
- Steel billets are an essential component in the production of beams and columns. These billets are semi-finished steel products that are typically square or rectangular in shape. They are produced through a process called casting, where liquid steel is poured into molds and allowed to solidify. Once the steel billets have solidified, they undergo further processing to transform them into beams and columns. This process involves several steps, including heating, rolling, and shaping. Firstly, the steel billets are heated to a high temperature in a furnace. This heating process is known as soaking and is carried out to make the billets more malleable and easier to shape. The billets are then passed through a series of rolling mills, where they are subjected to high pressure and shaped into their required dimensions. For beams, the steel billets are rolled into long, slender shapes with an I or H cross-section. These beams are commonly used in construction to provide structural support and load-bearing capacity. They are designed to handle heavy vertical loads and transfer them to the columns or other supporting structures. Columns, on the other hand, are produced by rolling steel billets into cylindrical shapes. These cylindrical billets are then further processed to achieve the desired diameter and length. Columns are crucial components in building construction, as they provide vertical support and help distribute the weight of the structure evenly. In summary, steel billets play a vital role in the production of beams and columns. They are transformed through heating, rolling, and shaping processes to create these structural components, which are essential for constructing sturdy and reliable buildings.
- Q:Can steel billets be used in the production of appliances?
- Appliances can indeed utilize steel billets for their production. These semi-finished products are typically employed for subsequent processing into diverse forms and dimensions. In the context of appliances, steel billets can serve as the primary material for fabricating elements like frames, panels, and other structural components. Steel possesses remarkable versatility and durability, providing robustness, stability, and corrosion resistance, thereby rendering it appropriate for appliances requiring sturdy construction. Moreover, steel can be effortlessly molded and shaped to fulfill the distinct design requisites of various appliances, making it the preferred choice in the manufacturing procedure.
- Q:What is the role of steel billets in the manufacturing of railway wheels?
- The production of railway wheels heavily relies on steel billets, which serve as the primary raw material. These billets are crucial in creating wheels that possess exceptional strength, durability, and the ability to endure heavy loads, extreme temperatures, and constant wear and tear. To begin with, steel billets undergo a melting process and are then shaped into a cylindrical form, similar to the final shape of the railway wheel. Subsequently, these billets go through a series of manufacturing steps, including hot rolling, forging, and machining, to achieve the desired shape and dimensions of the railway wheel. One of the key advantages of using steel billets lies in their remarkable strength and toughness. Steel is widely recognized for its exceptional mechanical properties, such as high tensile strength and hardness. These characteristics are indispensable for railway wheels, as they need to bear immense loads and resist deformation even under extreme pressures. Furthermore, steel billets provide the necessary metallurgical properties essential for railway wheels. They can be alloyed with additional elements like carbon, manganese, and chromium to enhance their strength, hardness, and resistance to corrosion and fatigue. This ensures that the railway wheels maintain their structural integrity and performance over an extended period. In conclusion, steel billets play a fundamental role in the manufacturing process of railway wheels. They provide the raw material needed to create robust, durable, and dependable wheels that can withstand the challenging conditions of railway operations. By utilizing steel billets, railway wheels are able to meet the strict safety, performance, and longevity requirements of the transportation industry.
- Q:What are the advantages of using steel billets in the manufacturing process?
- Using steel billets in the manufacturing process offers numerous benefits. Firstly, the controlled casting process used to produce steel billets ensures superior quality and consistent material. This consistency is essential in manufacturing applications that demand precise dimensions and mechanical properties. Secondly, steel billets possess remarkable strength and durability, making them suitable for a wide range of manufacturing purposes. Steel is renowned for its high tensile strength, enabling it to withstand heavy loads and impacts without any deformation or failure. As a result, steel billets are ideal for structural components and machinery parts that must endure high levels of stress. Moreover, steel billets can be easily shaped and formed into various sizes and shapes to meet specific design requirements. Manufacturers can achieve the desired shape by hot rolling, cold rolling, or forging the billets. This flexibility allows for the creation of intricate and complex parts with ease. Additionally, steel billets have exceptional resistance to heat and corrosion. This makes them highly suitable for applications involving high temperatures or exposure to harsh environments, such as automotive components, construction materials, and industrial machinery. Furthermore, steel billets are readily available and cost-effective compared to alternative materials. Steel is one of the most widely produced and recycled materials globally, ensuring a consistent supply and competitive prices. This availability and affordability make steel billets the preferred choice for many manufacturers. Lastly, steel billets are environmentally friendly. The recyclability of steel helps reduce energy consumption and greenhouse gas emissions during the manufacturing process. Choosing steel billets enables businesses to minimize their environmental impact and make sustainable choices. In conclusion, the advantages of using steel billets in the manufacturing process include their superior quality and consistency, exceptional strength and durability, versatility in shaping, resistance to heat and corrosion, availability and cost-effectiveness, and environmental sustainability.
- Q:How do steel billets contribute to the environmental sector?
- Steel billets contribute to the environmental sector in several ways. Firstly, the production of steel billets often involves recycling scrap metal, which helps reduce the demand for raw materials and conserves natural resources. This process also reduces the energy required for steel production, resulting in lower greenhouse gas emissions and a smaller carbon footprint. Furthermore, steel billets are widely used in construction projects, such as building infrastructure and renewable energy installations. Steel is a highly durable material that can withstand harsh weather conditions and has a long lifespan. By using steel billets in construction, we can create structures that require minimal maintenance and repair, reducing the need for frequent replacements and conserving additional resources. Additionally, steel billets play a crucial role in the manufacturing of eco-friendly products. Steel is a key component in the production of electric vehicles, wind turbines, and solar panels. These clean energy solutions help reduce our reliance on fossil fuels and decrease harmful emissions, thus contributing to a cleaner and greener environment. Moreover, steel billets can be recycled again at the end of their lifespan, further reducing waste and minimizing the environmental impact. Recycling steel is a highly efficient process that requires less energy and produces fewer emissions compared to the production of new steel from raw materials. In conclusion, steel billets contribute to the environmental sector through their recycling capabilities, durability in construction, and their role in the manufacturing of eco-friendly products. By incorporating steel billets into various industries, we can promote sustainability, conserve resources, and reduce our environmental footprint.
- Q:What are the common surface defects in steel billets during reheating?
- During the reheating process of steel billets, several common surface defects may occur. These defects can have a negative impact on the quality and integrity of the final product. Some of the most common surface defects in steel billets during reheating include: 1. Scale Formation: When steel billets are exposed to high temperatures, a layer of iron oxide, known as scale, can form on the surface. Scale is brittle and can easily crack or flake off, leading to a rough and uneven surface. 2. Decarburization: Decarburization is the loss of carbon from the surface of the steel billets due to exposure to high temperatures. This can result in a reduced carbon content on the surface, making it prone to cracking, reduced hardness, and poor mechanical properties. 3. Surface Oxidation: Steel billets can undergo oxidation when exposed to oxygen in the air during reheating. This can lead to the formation of a thin layer of oxide on the surface, affecting the surface finish and potentially reducing the corrosion resistance of the steel. 4. Overheating: Overheating during reheating can cause localized melting or partial melting of the steel billets. This can result in surface irregularities, such as pits, cracks, or blisters, which compromise the integrity of the billets. 5. Hot Spots: Uneven heating of the steel billets can lead to the formation of hot spots on the surface. These localized areas of excessive heat can cause surface defects like warping, cracking, or surface defects like scorching or discoloration. 6. Surface Contamination: During reheating, steel billets can come into contact with contaminants, such as dirt, oil, or other foreign materials. These contaminants can adhere to the surface of the billets, leading to surface defects like stains, pitting, or uneven surface finish. 7. Thermal Shock: Rapid changes in temperature during reheating can cause thermal shock, leading to surface defects like cracks or distortions. This can occur when the steel billets are exposed to water or a cooling medium or when there are substantial temperature differences across the surface of the billets. To minimize these surface defects in steel billets during reheating, proper heating techniques, control of heating rates, and the use of protective coatings or atmospheres can be employed. Additionally, regular inspection and quality control measures can help identify and mitigate surface defects before they affect the final product's quality.
- Q:How do steel billets contribute to the overall cost-effectiveness of a project?
- There are several ways in which steel billets contribute to the cost-effectiveness of a project. To begin with, steel billets serve as the initial material for various steel products, such as beams, bars, and sheets. Manufacturers can produce these products in a cost-effective manner by utilizing steel billets, which are usually less expensive than finished steel products. Furthermore, the use of steel billets allows for the efficient utilization of resources. They can be easily melted down and shaped into different forms and sizes, thereby reducing waste during the production process. This adaptability diminishes the amount of raw material required, resulting in cost savings. In addition, steel billets possess exceptional strength and durability characteristics. By incorporating steel billets into construction projects, engineers can ensure the solidity and longevity of the structures. This helps to decrease maintenance and repair expenses over time, ultimately enhancing the project's cost-effectiveness. Moreover, steel billets are readily available in the market, making them a cost-effective option for projects with tight schedules. Manufacturers can easily procure steel billets from various suppliers, ensuring a consistent supply of material for the project. Lastly, steel billets contribute to cost-effectiveness through their recyclability. Steel is one of the most widely recycled materials globally, and the use of recycled steel billets can significantly reduce production costs. The recycling of steel billets also aids in minimizing the environmental impact of a project, making it a more sustainable and cost-effective choice. All in all, steel billets play a crucial role in enhancing the cost-effectiveness of a project by providing an economical starting material, reducing waste, ensuring durability, facilitating availability, and promoting recycling.
- Q:How are steel billets used in the manufacturing of hydraulic components?
- Hydraulic components rely heavily on steel billets as a crucial raw material for their production. Billets, which are essentially semi-finished steel forms, are typically rectangular or square in shape. They undergo further processing to become various hydraulic components like cylinders, pistons, valves, and fittings. The manufacturing process begins by carefully selecting high-quality steel billets that meet specific mechanical and chemical requirements. These billets are then heated to a specific temperature, making them more malleable and easier to shape. Once heated, the billets undergo a series of mechanical processes such as forging, extrusion, or rolling to achieve the desired shape and size. For instance, in the production of hydraulic cylinders, the heated billets are usually forged or extruded to form the cylinder body. This involves applying high pressure to the billet, causing it to deform and take on a cylindrical shape. The resulting cylinder body is then further machined to precise tolerances to accommodate internal components like pistons, seals, and valves. Similarly, hydraulic valves and fittings are also manufactured using steel billets. The billets undergo various machining techniques such as turning, milling, drilling, and grinding to create intricate shapes and features required for these components. The final products are then subjected to heat treatment or surface treatment to enhance their strength, durability, and corrosion resistance. Steel billets are preferred in the manufacturing of hydraulic components due to their exceptional mechanical properties, including high strength, good ductility, and weldability. These properties ensure that the components can withstand the high pressures, extreme temperatures, and harsh operating conditions commonly experienced in hydraulic systems. In conclusion, steel billets play a vital role in the manufacturing process of hydraulic components. They undergo various mechanical processes to achieve the necessary shapes and sizes needed for cylinders, pistons, valves, and fittings. The use of steel billets guarantees the production of high-quality and reliable hydraulic components that can effectively function in demanding hydraulic systems.
- Q:What is the difference between carbon three plants and carbon four plants?
- Also known as C4 plants. Such as corn, sugar cane, sorghum, amaranth and so on.CO2 is the first product of the assimilation of photosynthetic carbon cycle in three carbon compounds 3- phosphoglycerate plants, known as carbon three plants (C3 plants), such as wheat, soybeans, cotton, tobacco, etc.. C3 plants have higher CO2 compensation points than C4 plants, so the survival rate of C3 plants is lower than that of C4 plants when the CO2 content is low.By contrast, the division of C3 plant cells is less definite than that of C4 plants, and CO2 uses less efficiently. To some extent, C3 plants may be considered as prokaryotes in plants, whereas C4 plants are more like eukaryotes".
- Q:Billet heating furnace prices?
- The reheating furnace control mode according to the different tonnage, heating medium, price range, or recommendations according to your requirements, find good few industry units do offer the program, compared to eradicate the solution and quotation.
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Hot Rolled Steel Billet 3SP Standard 185mm
- Loading Port:
- Shanghai
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 100 m.t.
- Supply Capability:
- 10000 m.t./month
OKorder Service Pledge
OKorder Financial Service
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