Hot Rolled Steel Coils Made In China 2016
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 50 m.t.
- Supply Capability:
- 20000 m.t./month
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Specification
Standard:
AISI
Technique:
Hot Rolled
Shape:
Square
Surface Treatment:
Oiled
Steel Grade:
Q235
Certification:
SGS
Thickness:
4.0-6.0mm
Length:
1219mm
Net Weight:
50
DESCRIPTION FOR SS400 CARBON STEEL SHEET
1.Thickness: 1-200mm
2.Width: 100-3000mm
3.Length: 1000-12000mm
4. Applications :mining machinery, environmental protection, engineering
5. Grade:SS400 A 36 Q195.Q235.Q345.SPCC.SPCH
6.Surface : Hot Rolled Cold Rolled Galvanized Steel
DESCRIPTION FOR CARBON STEEL PLATE
Product | carbon steel plate price per ton |
Place of origin | Tianjin,China mainland |
MOQ | 25 tons |
Thickness | 1mm-200mm |
Width | 1000mm-3000mm |
Length | 1000mm-2000mm |
Application | widely |
Standard | AISI,ASTM,BS,DIN,JIS,GB,etc |
Grade | A572,A573,A633,A678,A709,A710,G3101,G3136,etc |
Tpye | Steel plate |
Surfacing | Coated |
Productive Technology | Hot Rolled & Cold Rolled |
Price | FOB USD 500-900 per ton |
Port | TIANJIN,SHANGHAI |
Payment Terms | L/C,T/T,Western Union,MoneyGram |
Product Ability | 1000 tons per month |
Delivery | 10 days after deposit or according to customers' quantity |
Packing | standard seaworthy export packing or as the request of customers |
PACKING:
1.Big thickness:by bulk vessel
2.Small thickness:packed by steel strips and shipped by container
3.According to the requirements of customers'
TRADE TERMS :FOB, CFR, CIF
DETAILED PICTURES FOR STEEL COILS
EXPORT MARKET FOR STEEL COILS/SHEETS
Our target market is the international market. Every year we export most of products to countries like India, Pakistan, South Korea, Brazil, Australia, South Africa, Spain, Sri Lanka, Taiwan, Hong Kong, etc.
FAQ:
Q:You are Factory or Trading Company?
A:We are factory,our main products include Steel plate,Steel Bar,Steel coils.
Q:What’s the MOQ?
A:Generally,the trail order will be accepted.The MOQ can be confirmed according to the different products.For example,the MOQ of rebar will be 25-50MT,the galvanized steel pipe will be 10MT,the stainless steel pipe will 1-5MT.
- Q: i'm looking into pedal steel guitars, and I would like some suggestions or links and info on what kind i should get.
- Try okorder -The Art of Steel Guitar/ Steel guitar players -Take it away Leon- McAuliffe and 'Speedy West' were a couple greats. In the late '50s, Speedy was playing a Fender 1000 Pedal steel. He often did duets with Jimmy Bryant The Fastest Guitar Player In The Country! / note also the 'Emmons Guitar Company':
- Q: How are steel coils loaded onto trucks or containers?
- Steel coils are typically loaded onto trucks or containers using specialized equipment such as cranes or forklifts. The coils are carefully lifted and positioned onto the truck or container bed, ensuring proper weight distribution and securing them with straps or chains to prevent any movement during transportation.
- Q: What are the different methods of perforating steel coils?
- There are several methods used for perforating steel coils, each with its own advantages and applications. 1. Mechanical Punching: This is one of the most common methods used for perforating steel coils. It involves using a mechanical press to punch holes in the coil using a punch and die set. The size and shape of the holes can be customized based on the design of the punch and die set. Mechanical punching is efficient and can produce high-quality holes with consistent results. 2. Laser Cutting: Laser cutting is a popular method used for perforating steel coils, especially when complex hole patterns or intricate designs are required. It involves using a high-powered laser beam to cut through the steel coil, creating precise and clean holes. Laser cutting offers flexibility in terms of hole size, shape, and spacing, and it can be computer-controlled for precise and repeatable results. 3. CNC Plasma Cutting: This method involves using a high-velocity plasma jet to cut through the steel coil and create perforations. CNC (Computer Numerical Control) technology is used to guide the plasma cutter, enabling precise and accurate hole patterns. CNC plasma cutting is ideal for thicker steel coils and can produce larger holes compared to laser cutting. 4. Waterjet Cutting: Waterjet cutting uses a high-pressure jet of water mixed with an abrasive material to cut through the steel coil. This method offers versatility in terms of hole size, shape, and material compatibility. Waterjet cutting is known for its ability to produce intricate and precise perforations without heat-affected zones or distortion. 5. Electrical Discharge Machining (EDM): EDM is a method that utilizes electrical discharges to erode the material and create perforations in the steel coil. It involves using a conductive electrode and a dielectric fluid to generate controlled sparks that remove material and form holes. EDM can be used to create complex shapes and patterns and is particularly suitable for hard materials. The choice of method depends on factors such as the desired hole size and shape, the thickness and type of the steel coil, the required precision, and the production volume. Each method has its own advantages and limitations, and it is important to select the most appropriate method based on the specific requirements of the perforated steel coils.
- Q: How do steel coils contribute to strength and stability in structures?
- Steel coils are essential components in many structures due to their significant contribution to strength and stability. The inherent properties of steel, combined with the unique design of coils, make them an ideal choice for enhancing the structural integrity of various applications. Firstly, steel itself is renowned for its exceptional strength. It has a high tensile strength, which means it can resist large amounts of tension without breaking or deforming. When steel is formed into coils, it further enhances its strength by distributing the load evenly across the entire structure. This uniform distribution of force helps prevent localized stress concentrations, ensuring that the structure can withstand heavy loads and external pressures more effectively. Additionally, steel coils provide stability to structures by offering rigidity and resistance against deformation. Steel is known for its stiffness, which prevents excessive flexing or bending under loads. The tightly wound coils create a robust and compact structure that can efficiently resist dynamic forces, such as wind, earthquakes, or vibrations. This high resistance to deformation minimizes any potential damage to the structure, thereby maintaining its stability and integrity. Moreover, steel coils also contribute to the longevity and durability of structures. Steel possesses remarkable durability, as it is highly resistant to corrosion, rust, and deterioration over time. This longevity ensures that structures built with steel coils can remain strong and stable for extended periods, requiring minimal maintenance or repairs. Furthermore, steel coils offer versatility in design and construction. The ability to shape steel into various coil sizes and configurations allows for customization based on specific structural requirements. Architects and engineers can utilize steel coils to create complex structures while maintaining their strength and stability. This versatility allows for innovative and efficient design solutions, making steel coils a preferred choice in many construction projects. In conclusion, steel coils play a crucial role in enhancing the strength and stability of structures. The inherent strength of steel, combined with the unique design of coils, provides structures with the necessary rigidity, resistance to deformation, and durability. Additionally, the versatility of steel coils allows for customization and innovative design solutions. Overall, steel coils significantly contribute to the overall integrity and longevity of structures, making them an essential component in the construction industry.
- Q: Can steel coils be coated with RFID technology?
- Yes, steel coils can be coated with RFID technology. The RFID tags can be securely attached to the surface of the steel coils, allowing for easy tracking, inventory management, and supply chain visibility.
- Q: How are steel coils inspected for thickness using ultrasonic testing?
- Ultrasonic testing is employed to inspect the thickness of steel coils, utilizing a non-destructive method. When conducting this process, a handheld ultrasonic thickness gauge is utilized to determine the thickness of the coil. The ultrasonic thickness gauge emits high-frequency sound waves that travel through the steel coil. These sound waves rebound from the opposite side of the coil, generating an echo. The time it takes for the echo to return to the gauge is measured and utilized to compute the coil's thickness. The gauge comprises a transducer responsible for emitting the sound waves and a receiver that detects the echoes. To ensure optimal acoustic contact between the transducer and the steel surface, the transducer is placed on the coil's surface, utilizing a coupling gel or oil. The transducer releases a brief burst of sound waves, which penetrate through the steel coil and reach the opposite side. If the sound waves encounter any variations or defects in the coil's thickness, they reflect back to the transducer. These echoes are detected by the receiver, and the time between the emission and reception of the sound waves is measured. By utilizing the known speed of sound in steel, the time taken for the sound waves to traverse the coil and return can be converted into a thickness measurement. This enables an accurate evaluation of the steel coil's thickness at different points. Ultrasonic testing is a dependable and efficient method for inspecting the thickness of steel coils. It permits swift measurements without causing any harm to the material, thereby making it ideal for quality control purposes and ensuring compliance with manufacturing specifications.
- Q: and what type of metal is steel?
- Steel is an alloy consisting mostly of iron, with a carbon content between 0.2% and 2.14% by weight (C:110–10Fe), depending on grade. Carbon is the most cost-effective alloying material for iron, but various other alloying elements are used such as manganese, chromium, vanadium, and tungsten. Carbon and other elements act as a hardening agent, preventing dislocations in the iron atom crystal lattice from sliding past one another. Varying the amount of alloying elements and form of their presence in the steel (solute elements, precipitated phase) controls qualities such as the hardness, ductility, and tensile strength of the resulting steel. Steel with increased carbon content can be made harder and stronger than iron, but is also more brittle.
- Q: Which of the two are better for exhaust manifolds, im guessing the stainless steel right?
- For strength, cast iron (that's why OEM exhaust manifolds are made out of it). For performance, stainless steel. For one, stainless steel headers are lighter than cast iron ones. Then they come in multiple arrangements, (4-2-1 or 4-1 for 4 cylinder motors). The down fall is strength. Hit a pot hole with the collector of a stainless steel header. It's going to have a nice dent in it.
- Q: What are the different methods of slitting edge trimming for steel coils?
- Steel coils can be slit using various methods, each with its own benefits and applications. 1. Rotary Shear Slitting: This approach utilizes rotary knives mounted on a rotating shaft to cut through the steel coil. The knives create a shearing action as they pass through the coil. Rotary shear slitting is versatile, accommodating various coil thicknesses and materials. It is commonly employed for high-volume production, offering clean and precise cuts. 2. Crush Cut Slitting: This method involves pressing the steel coil against a hardened anvil with a rotating knife. The coil is cut by crushing it against the anvil. Crush cut slitting is suitable for thinner gauge materials and those sensitive to shearing forces. It provides clean cuts but may have limitations in terms of coil thickness and width. 3. Razor Slitting: Razor slitting employs a razor blade mounted on a rotating shaft to slice through the steel coil. This method is commonly used for thin and delicate materials that require precise and burr-free edges. While it provides clean cuts, it may be limited in terms of coil thickness and width. 4. Shear Slitting: This approach utilizes a pair of opposing blades to shear through the steel coil. The blades move past each other, creating a scissor-like cutting action. Shear slitting is commonly used for heavier gauge materials, offering clean and precise cuts. It is suitable for high-speed production and can handle a wide range of coil thicknesses and materials. 5. Laser Slitting: Laser slitting employs a high-powered laser beam guided by computer-controlled optics to cut through the steel coil. It offers precise and clean cuts and is suitable for various coil thicknesses and materials, including high-strength steels. Laser slitting provides a high level of accuracy and can handle complex cutting patterns. Each method has its own advantages and considerations, depending on the specific requirements of the steel coil slitting operation. Factors such as coil thickness, material type, desired edge quality, and production volume will influence the choice of slitting method.
- Q: How are steel coils used in the production of storage tanks and silos?
- Steel coils are an essential component in the production of storage tanks and silos due to their strength and durability. These coils are typically made from high-quality steel and are processed through various manufacturing techniques to attain the desired thickness and shape. In the production process, steel coils are first uncoiled and then cut into specific sizes and lengths to meet the requirements of the storage tank or silo design. The coils are then shaped into cylindrical sections, using bending and rolling machines, to create the main body of the tank or silo. Once the desired shape is achieved, the coils are welded together to form a continuous and secure seam. This welding process ensures that the tanks and silos are leak-proof and can withstand the pressure exerted by the stored materials. Furthermore, steel coils also play a crucial role in reinforcing the structure of storage tanks and silos. They are often used to create the roofs, bottoms, and other structural components of these storage units. The strength and resilience of steel make it ideal for withstanding the weight of the stored materials and any external forces that may be exerted on the tank or silo. Additionally, steel coils can be coated or treated with protective materials to enhance their resistance to corrosion and extend their lifespan. This is particularly important for storage tanks and silos that are used to store corrosive substances or are exposed to harsh environmental conditions. Overall, steel coils are a fundamental element in the production of storage tanks and silos, providing the necessary strength, durability, and structural integrity required for these storage units.
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Hot Rolled Steel Coils Made In China 2016
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 50 m.t.
- Supply Capability:
- 20000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
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