SAE1008,SAE1018 steel wire rod for drawing wire mesh

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Loading Port:: China Main Port

Payment Terms:: TT OR LC

Min Order Qty:: -

Supply Capability:: -

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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

Q: How is steel wire rod used in the manufacturing of wire forms for playground equipment?: Steel wire rod is a crucial component in the manufacturing of wire forms for playground equipment. It is used to create the sturdy and durable frames and structures that form the basis of various playground equipment, such as swing sets, jungle gyms, and slides. The wire rod is bent, shaped, and welded to form the desired design and structure, ensuring the safety and stability of the playground equipment. The strength and flexibility of steel wire rod make it an ideal material for withstanding the rigors of outdoor use, ensuring that the wire forms can withstand the weight and movement of children while providing a secure and enjoyable play experience.

Q: How are steel wire rods used in the manufacturing of mesh screens for filtration?: Steel wire rods are used in the manufacturing of mesh screens for filtration by being formed into a grid-like pattern, woven or welded together to create a sturdy and durable mesh structure. This mesh screen is then utilized to effectively trap and separate particles or impurities from liquids or gases, ensuring a high level of filtration efficiency.

Q: How is steel wire rod used in the manufacturing of wire forms for packaging?: Steel wire rod is vital in the production of wire forms for packaging purposes. It acts as the foundation material for manufacturing different wire products that find widespread use in packaging applications. One of the key applications of steel wire rod in packaging is its utilization in the creation of wire baskets and racks. These wire forms are commonly employed for storing and transporting goods, providing a sturdy and reliable packaging solution. Steel wire rod is processed and shaped into various forms and sizes to produce these wire baskets and racks, which are then used for organizing and safeguarding packaged items. Furthermore, steel wire rod is also employed in the production of wire hooks and clips. These wire forms are often used to secure packaging materials, such as plastic bags or boxes, to prevent any opening or spillage during transportation. The durability and strength of steel wire rod make it an ideal material for crafting these hooks and clips, ensuring the integrity and security of the packaging. Additionally, steel wire rod finds application in the manufacturing of wire ties, which are commonly referred to as twist ties or bag closures. These wire forms are extensively used in the packaging industry to seal bags, bundles, or packages, providing a simple yet effective means of tightly sealing and protecting items. The flexibility and malleability of steel wire rod allow for easy bending and shaping into twist ties, making it a vital component in their production. In conclusion, steel wire rod plays a critical role in the manufacturing of wire forms for packaging. Its strength, durability, and versatility make it the preferred material for creating various wire products used in packaging applications, including baskets, racks, hooks, clips, and twist ties. By utilizing steel wire rod, packaging solutions can be designed to withstand the challenges of transportation and ensure the safe and secure handling of goods.

Q: What is the difference between hot rolled and cold drawn steel wire rod?: Hot rolled and cold drawn steel wire rods are both used in various industries for different applications. The main difference between the two lies in the manufacturing process. Hot rolled steel wire rod is produced by heating a billet or ingot to a high temperature and then rolling it through a series of rollers to achieve the desired shape and dimensions. This process results in a larger diameter and a rougher surface finish. Hot rolled steel wire rods are commonly used in construction, automotive, and machinery applications where strength and durability are important. They are also more cost-effective than cold drawn wire rods. On the other hand, cold drawn steel wire rod is produced by pulling the hot rolled wire rod through a series of dies at room temperature. This process results in a smaller diameter and a smoother surface finish compared to hot rolled wire rods. Cold drawn wire rods are commonly used in applications where precision and a smooth surface finish are required, such as in the manufacturing of precision components, automotive parts, and electrical conductors. In summary, the main difference between hot rolled and cold drawn steel wire rods is the manufacturing process, which affects the diameter, surface finish, and application suitability. Hot rolled wire rods are larger in diameter with a rougher surface finish, while cold drawn wire rods are smaller in diameter with a smoother surface finish. The choice between the two depends on the specific requirements of the application in terms of strength, precision, and surface finish.

Q: How is steel wire rod used in the production of wire products?: Steel wire rod is an essential component in the production of wire products. Wire rod is a semi-finished product that is manufactured from steel billets through a rolling process. It is commonly used as a raw material in various industries to produce different types of wire products. One of the main applications of steel wire rod is in the production of steel wires. Steel wires are widely used in construction, automotive, electrical, and manufacturing industries for various purposes. For example, they are used for reinforcing concrete structures, making wire ropes, fencing, springs, nails, and screws. To produce wire products, the steel wire rod undergoes a series of manufacturing processes. Firstly, it is heated and then passed through a series of rolling mills to reduce its diameter and increase its length. This process, known as hot rolling, helps to enhance the mechanical properties of the wire rod. After hot rolling, the wire rod is cooled and then undergoes a pickling process to remove any scale or impurities from its surface. It is then drawn through a series of dies to further reduce its diameter and improve its surface finish. This process is called cold drawing and it helps to enhance the strength and ductility of the wire. Once the desired size and properties are achieved, the wire is either further processed or supplied as a finished product. Depending on the requirements, the wire can be subjected to additional processes such as heat treatment, coating, or surface finishing. These processes help to enhance the wire's performance and make it suitable for specific applications. In summary, steel wire rod is a crucial raw material in the production of wire products. Its versatility, strength, and ductility make it ideal for a wide range of applications. By undergoing various manufacturing processes, the wire rod is transformed into high-quality steel wires that are used in construction, automotive, electrical, and manufacturing industries.

Q: What are the common production processes for zinc-coated steel wire rod?: The common production processes for zinc-coated steel wire rod include drawing, annealing, galvanizing, and cooling.

Q: How are steel wire rods used in the production of fencing?: The production of fencing involves the use of steel wire rods in multiple ways. Initially, these rods are the primary material for manufacturing the wires that compose the fencing structure. They are typically made from high-quality steel, which imparts strength and durability to the fencing. To initiate the production process, the steel wire rods undergo an initial cleaning and coating to prevent rusting and corrosion. Next, they are passed through a series of machines that draw them down to the desired thickness and shape. This drawing process enhances the wire's tensile strength, making it suitable for fencing purposes. Once the wire has been drawn, it undergoes further processing to create various types of fencing products. For instance, some wire rods are twisted or braided together to form chain-link fencing. These interwoven wires create a mesh-like pattern commonly used to secure residential or commercial properties. Typically, the wire rods used for chain-link fencing are galvanized or coated with PVC to increase their longevity and resistance to weathering. In addition to chain-link fencing, steel wire rods are also utilized in the production of welded wire mesh fencing. This type of fencing consists of a grid-like pattern formed by welding intersecting steel wires together. The wire rods used for welded wire mesh fencing are usually galvanized or coated with zinc to prevent rust and corrosion. In summary, steel wire rods are vital in the production of fencing as they provide the raw material necessary to create sturdy, durable, and secure fences. Their versatility allows for the manufacturing of various types of fencing, catering to different needs and requirements in both residential and commercial settings.

Q: How are steel wire rods used in the manufacturing of bicycle spokes for strength and flexibility?: Steel wire rods are an essential component in the manufacturing process of bicycle spokes, as they provide the necessary strength and flexibility required for optimal performance. The use of steel wire rods ensures that the spokes can withstand the various forces and stresses experienced during cycling, such as the weight of the rider and impacts from uneven surfaces. The strength of steel wire rods is crucial in bicycle spokes as they need to bear the weight of the rider and transfer the force from pedaling to the wheels. Steel is known for its high tensile strength, meaning it can resist large amounts of pulling or stretching forces without breaking. This property makes it ideal for bicycle spokes, which need to support the weight of the rider and maintain stability. Furthermore, steel wire rods offer excellent flexibility, allowing the spokes to absorb and distribute external forces evenly. This flexibility helps to absorb shocks and vibrations, reducing the impact on the bicycle's overall structure and enhancing the comfort of the rider. Manufacturers typically shape the steel wire rods into a specific profile to optimize strength and flexibility. The rods are often cold-drawn, a process that increases their tensile strength while maintaining their flexibility. Cold-drawn steel wire rods are strong enough to withstand the forces applied during cycling, yet they retain enough flexibility to allow the spokes to move and adjust to various road conditions. In summary, steel wire rods play a vital role in the manufacturing of bicycle spokes for strength and flexibility. Their high tensile strength ensures the spokes can bear the weight of the rider and transfer forces effectively, while their flexibility helps absorb shocks and vibrations. Overall, steel wire rods provide the necessary durability and performance required for spokes in bicycle manufacturing.

Q: What are the main factors influencing the choice of steel wire rod dimensions?: The main factors influencing the choice of steel wire rod dimensions are the intended application, the required mechanical properties, and the manufacturing process. Firstly, the intended application plays a crucial role in determining the dimensions of the steel wire rod. Different industries and products have specific requirements for the wire rod dimensions. For example, in the automotive industry, steel wire rods are used for making springs, cables, and reinforcements, and the dimensions need to be tailored to the specific components. Similarly, in the construction industry, steel wire rods are utilized for reinforcement in concrete structures, and the dimensions must be suitable for the desired strength and stability. Secondly, the required mechanical properties of the steel wire rod influence its dimensions. Factors such as tensile strength, yield strength, elongation, and ductility are considered when determining the dimensions. Higher strength requirements may necessitate a thicker wire rod, while greater ductility might require a thinner rod to allow for easier shaping or bending. Lastly, the manufacturing process also affects the choice of steel wire rod dimensions. The capabilities of the production line and the available equipment play a significant role. The dimensions should align with the capabilities of the manufacturing process to ensure efficient and cost-effective production. For instance, if a specific wire rod dimension is not compatible with the existing rolling mill equipment, it may require additional investments or modifications to accommodate the desired dimensions. In summary, the choice of steel wire rod dimensions is influenced by the intended application, the required mechanical properties, and the manufacturing process. Considering these factors ensures that the wire rod is suitable for its intended use, meets the necessary performance criteria, and can be efficiently produced.

Q: What are the common industry qualifications for steel wire rod professionals?: The common industry qualifications for steel wire rod professionals typically include a bachelor's degree in engineering or a related field, along with relevant work experience in the steel industry. Additionally, professionals may also need to possess specific certifications or licenses, such as those related to quality control or safety regulations. Ongoing professional development and training are also important in this field to stay updated with industry advancements and best practices.

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