low carbon steel wire rod for drawing

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Loading Port:: China Main Port

Payment Terms:: TT OR LC

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Quick Details

Steel Grade:SAE1008 SAE1018
Standard:AISI, ASTM, GB
Wire Gauge:5.5---14MM
Place of Origin:Hebei, China (Mainland)
Type:Drawn Wire
Application:Construction
Alloy Or Not:Is Alloy
Special Use:Cold Heading Steel
Model Number:SAE1008 SAE1018
Brand Name:mammoth
color:black

Packaging & Delivery

Packaging Details:	in bulk or according to the customer's require
Delivery Detail:	20 days after L/C or prepayment

Specifications

FOB Pirce:USD480---530
Port:Tianjin
Payment Terms:L/C,TT
Min Order:40 MT

Quick Details

Steel Grade:Q195B,Q235B,SAE1008-SAE1018
Standard:AISI,ASTM,BS,DIN,GB,JIS
Wire Gauge:5.5-14MM
Place of Origin:China (Mainland)
Type:Drawn Wire
Application:Packaging,CONSTRUCTION
Alloy Or Not:Is Alloy
Special Use:Cold Heading Steel
Model Number:5.5-14MM
Brand Name:MAMMOTH

Packaging & Delivery

Packaging Details:	In coils loaded in containers or by bulk
Delivery Detail:	Within 30 days after receiving your deposit

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Specifications

1)material:Q195B,Q235B,SAE1008-1018
2)MOQ;100MTS
3)price:550-600usd/MT
4)3.Standard:GB, ASTM,AISI,BS,JIS

(a)DESCRIPTION:

1. FOB TIANJIN Price: USD 525-555 Per Metric Ton
2. MOQ: 100MT Per Specification
3. Standard: ASTM, GB/T 14981-2009, AISI
4. Grade: Q235, Q195, SAE1008-SAE1018
5.Size: 5.5 mm - 14 mm
6. Weight: ABOUT 2.0 MT
7.Payment Terms : T/T or LC which opened by the A Grade Bank.
8.Delivery date: 15-45 days after receiving your 30% deposit or LC.
9.Surface: Round, No twisted, Light and Smooth
10.Application: Making Nails, Construction, Industries, Free Cutting Wire, Drawing Steel Wire etc

1. FOB TIANJIN Price: USD 525-555 Per Metric Ton

2. MOQ: 100MT Per Specification

3. Standard: ASTM, GB/T 14981-2009, AISI

4. Grade: Q235, Q195, SAE1008-SAE1018

5.Size: 5.5 mm - 14 mm

6. Weight: ABOUT 2.0 MT

7.Payment Terms : T/T or LC which opened by the A Grade Bank.

8.Delivery date: 15-45 days after receiving your 30% deposit or LC.

9.Surface: Round, No twisted, Light and Smooth

10.Application: Making Nails, Construction, Industries, Free Cutting Wire,

Drawing Steel Wire etc

(b)COMPANY INTRODUCTION:

Joined in iron and steel line ten years ago, largely involved in reinforcing steel rebar ,wire rod and structure steel etc, representative of many quality factories and local famous big brand, quality and most competitive price are our gurantee.

For the international trade, we had exported to countries in Middle East, South America, Phillipine, Vietnam, Bangladesh, African countries etc. customer satisfaction and self improvement are always our commitment

Q: What are the different production processes involved in steel wire rod manufacturing?: The manufacturing of steel wire rods involves several production processes. These processes are crucial in transforming raw materials into the final product. Here are the different production processes involved in steel wire rod manufacturing: 1. Ironmaking: The steel wire rod manufacturing process begins with ironmaking. Iron ore is extracted and processed in a blast furnace to produce pig iron. The pig iron is then further refined to remove impurities and create steel. 2. Steelmaking: In the steelmaking process, the pig iron is melted in a furnace and alloyed with various elements such as carbon, manganese, and silicon to achieve the desired steel properties. This process ensures that the steel meets the specific requirements of wire rod production. 3. Continuous Casting: After steelmaking, the molten steel is cast into billets or blooms using continuous casting technology. This process involves pouring the molten steel into a water-cooled mold to solidify it into a specific shape. For wire rod production, the billets are typically cast in a square cross-section. 4. Hot Rolling: The next step is hot rolling, where the billets are reheated and passed through a series of rolling mills. These rolling mills reduce the billets' cross-sectional area and elongate them into wire rod form. The hot rolling process improves the mechanical properties and surface finish of the wire rods. 5. Cooling: Once the wire rods are hot rolled, they undergo a cooling process to achieve the desired properties. Cooling can be done through air cooling or water spray cooling, depending on the specific requirements of the wire rods. 6. Surface Treatment: After cooling, the wire rods undergo surface treatment processes such as pickling or coating. Pickling involves removing any scale or oxide on the surface of the wire rods using acid solutions. Coating may involve applying a protective layer to prevent corrosion or improve the wire rods' performance in specific applications. 7. Inspection and Quality Control: Throughout the manufacturing process, the wire rods undergo rigorous inspection and quality control measures. This ensures that the wire rods meet the required standards and specifications. Various tests, such as tensile strength, elongation, and dimensional checks, are conducted to ensure the quality of the wire rods. 8. Packaging and Delivery: Finally, the wire rods are packaged according to customer requirements and prepared for delivery. They may be bundled, coil-wound, or packaged in other forms, depending on the customer's needs. The wire rods are then transported to the customers, where they can be further processed or used in various applications. These production processes play a vital role in the manufacturing of steel wire rods, ensuring that they meet the required specifications and are suitable for different applications in industries such as construction, automotive, and manufacturing.

Q: What are the different types of packaging options available for steel wire rod?: The packaging options for steel wire rod vary, depending on factors such as size, weight, intended use, and buyer or manufacturer preferences. Coil packaging is a common option for smaller diameter wire rods. It involves coiling the wire rod into a circular shape and tightly securing it with plastic or steel straps. Coils are convenient for transportation and storage. Bundle packaging, on the other hand, is suitable for larger diameter wire rods. This method involves bundling multiple pieces of wire rod together and tightly binding them with steel straps. Bundles provide stability during transportation and handling. In addition to coils and bundles, steel wire rod can also be packaged in wooden crates or pallets. This method offers extra protection during transportation and is suitable for both small and large diameter wire rods. Wooden packaging is often preferred for long-distance shipping or extended storage. Furthermore, manufacturers may offer custom packaging options to meet specific requirements. This could involve using special wrapping materials, implementing additional protective measures, or creating unique packaging designs. Overall, the various packaging options available for steel wire rod ensure safe and efficient handling, transportation, and storage, while also catering to the specific needs of buyers and manufacturers.

Q: What are the safety precautions to be followed while working with steel wire rod?: To ensure the safety of yourself and others when working with steel wire rods, it is crucial to adhere to various safety measures. Below are some guidelines that should be observed: 1. Personal Protective Equipment (PPE): Always don appropriate PPE, including safety glasses, gloves, and steel-toed boots, in order to shield yourself from potential hazards. 2. Training and Knowledge: Make certain that you have received proper training and possess a solid understanding of the equipment, tools, and procedures involved in working with steel wire rods. 3. Secure Work Area: Maintain a clean and well-organized work area, free from any obstacles or tripping hazards that may lead to accidents. 4. Handling and Storage: Exercise caution when handling steel wire rods to prevent injuries. Utilize proper lifting techniques and equipment when lifting and carrying them. Store them in a designated area away from walkways to avoid accidental contact. 5. Inspection: Regularly inspect the wire rods for any signs of damage, such as sharp edges or protrusions, before and during use. Replace any defective rods immediately. 6. Fire Safety: During cutting or welding processes, steel wire rods can produce sparks. Ensure that the work area is devoid of flammable materials and have suitable fire extinguishing equipment readily accessible. 7. Cutting and Grinding: When cutting or grinding steel wire rods, employ appropriate tools and adhere to safety procedures. Wear a face shield or goggles to safeguard your eyes from flying debris. 8. Secure Fastening: Guarantee that the wire rods are securely fastened during installation or use to prevent them from becoming loose or falling. 9. Communication and Signage: Clearly communicate with individuals in the vicinity about the ongoing work. Utilize warning signs and barricades to prevent unauthorized access to the work area. 10. Emergency Preparedness: Familiarize yourself with emergency procedures and be aware of the location of emergency exits, first aid kits, and safety showers in the event of accidents or injuries. By adhering to these safety precautions, you can mitigate the risks associated with working with steel wire rods and foster a safer working environment for yourself and those around you.

Q: What are the different types of steel wire rod finishes for improved adhesion?: There are several types of steel wire rod finishes that can improve adhesion, including phosphatized, galvanized, and polymer coated finishes.

Q: How is steel wire rod used in the manufacturing of wire for springs in mattresses?: Steel wire rod is used in the manufacturing of wire for springs in mattresses as it serves as the primary material for creating the springs. The steel wire rod is first straightened and then coiled to form the spring shape. These springs provide the required support and durability to the mattress, ensuring a comfortable sleeping experience.

Q: How is steel wire rod processed to achieve specific properties?: Steel wire rod goes through a series of manufacturing steps to attain specific properties that make it appropriate for various applications. The process commences with the selection of premium raw materials, usually low carbon steel, which is melted in a furnace to create molten steel. Once the molten steel is formed, it is continuously cast into billets or blooms. These solidify and are then rolled into wire rod form through hot rolling. This hot rolling process involves passing the billets or blooms through a series of rollers to reduce their size and shape them into the desired wire rod dimensions. This step aids in aligning the grain structure of the steel, thereby enhancing its strength and ductility. Following hot rolling, the wire rod undergoes a cooling process to relieve any remaining stress and ensure dimensional stability. It is then subjected to a surface treatment, such as pickling or shot blasting, to eliminate any oxides or scale formed during hot rolling. In order to achieve specific mechanical properties, the wire rod may undergo further processing steps, such as cold drawing or heat treatment. Cold drawing involves pulling the wire rod through a series of dies to decrease its diameter, increase its tensile strength, and improve its surface finish. On the other hand, heat treatment involves subjecting the wire rod to controlled heating and cooling cycles to modify its microstructure, resulting in desired properties like hardness, toughness, or corrosion resistance. Moreover, the wire rod may undergo additional surface treatments, such as coating or galvanizing, to enhance its corrosion resistance or improve its aesthetic appearance. Coating can involve applying a layer of zinc, polymer, or other protective materials, while galvanizing entails immersing the wire rod in a bath of molten zinc to create a protective zinc coating. In summary, the processing of steel wire rod entails a combination of hot rolling, cooling, surface treatment, and potential further processing steps like cold drawing or heat treatment. These steps are meticulously carried out to achieve specific properties, such as strength, ductility, corrosion resistance, and surface finish, rendering the wire rod suitable for diverse applications in industries such as construction, automotive, manufacturing, and more.

Q: What are the safety regulations for steel wire rod manufacturing plants?: The safety regulations for steel wire rod manufacturing plants vary depending on the country and jurisdiction. However, some common safety regulations include ensuring proper ventilation and exhaust systems to minimize exposure to hazardous fumes, implementing fire safety measures such as fire alarms, extinguishers, and sprinkler systems, providing personal protective equipment (PPE) to workers, conducting regular maintenance of machinery and equipment to prevent accidents, establishing safety protocols for handling and storing materials, and conducting regular safety training and drills for employees. It is important for steel wire rod manufacturing plants to comply with local safety regulations and standards to ensure a safe working environment for all employees.

Q: What are the main factors affecting the hardness of steel wire rod?: The main factors affecting the hardness of steel wire rod include the carbon content, alloying elements, heat treatment processes, and the presence of impurities. The higher the carbon content, the harder the steel wire rod tends to be. Alloying elements such as chromium, nickel, and manganese can also impact hardness. Heat treatment processes like quenching and tempering can further enhance the hardness of the wire rod. Finally, impurities like sulfur and phosphorus can adversely affect the hardness of the steel wire rod.

Q: What are the different types of tests performed on steel wire rod?: There are several types of tests performed on steel wire rod to ensure its quality and suitability for various applications. These tests include: 1. Chemical Composition Analysis: This test determines the percentage of different elements present in the steel wire rod, such as carbon, manganese, silicon, sulfur, phosphorus, and other trace elements. It helps to ensure that the steel meets the required specifications. 2. Tensile Strength Test: This test measures the ability of the steel wire rod to withstand tension or pulling forces without breaking. It determines the maximum load the rod can bear before it fractures, providing crucial information about its strength and durability. 3. Elongation Test: This test determines the percentage increase in length the steel wire rod undergoes before it breaks under tension. It helps to assess the ductility and malleability of the rod, indicating its ability to withstand deformation without fracturing. 4. Hardness Test: This test measures the resistance of the steel wire rod to indentation or scratching. It provides an indication of the material's strength and ability to resist wear and tear. 5. Microstructure Analysis: This test involves examining the microstructure of the steel wire rod under a microscope. It helps to identify any structural anomalies, such as grain size, presence of inclusions, and uniformity, which can affect the rod's mechanical properties. 6. Surface Inspection: This test involves visually inspecting the surface of the steel wire rod for any defects, such as cracks, scratches, or surface irregularities. It ensures that the rod meets the required visual quality standards. 7. Dimensional Inspection: This test verifies the dimensional accuracy and tolerances of the steel wire rod, such as diameter, length, and straightness. It ensures that the rod meets the specified dimensional requirements for its intended application. 8. Corrosion Resistance Test: This test evaluates the steel wire rod's ability to resist corrosion when exposed to different environmental conditions. It helps to determine the rod's suitability for applications where corrosion resistance is critical. By performing these tests, manufacturers can ensure that the steel wire rod meets the necessary quality standards and is suitable for use in various industries, including construction, automotive, manufacturing, and infrastructure.

Q: What are the different surface defects that can affect the thermal conductivity of steel wire rod?: Some of the different surface defects that can affect the thermal conductivity of steel wire rod include scale formation, oxide layers, pitting corrosion, surface roughness, and any other irregularities or impurities on the surface of the rod. These defects can disrupt the flow of heat within the material, leading to decreased thermal conductivity.

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