• Chrome Vanadium steel wire System 1
Chrome Vanadium steel wire

Chrome Vanadium steel wire

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Loading Port:
China Main Port
Payment Terms:
TT OR LC
Min Order Qty:
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Supply Capability:
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Quick Details

  • Place of Origin:China (Mainland)

  • Application:Industry

  • Shape:COIL

Packaging & Delivery

Packaging Details:SEAWORTY EXPORT PACKING OR AS PER CUSTOMER'S REQUEST
Delivery Detail:IN 30 DAY

Specifications

Our product has a good ductility, high tensile strength and can be last long in use. High flexibility, abrasion resistance

Quick Details

Standard:AISI,ASTM,DIN,EN,GB,JISGrade:300 SeriesWire Gauge:0.01-25mm
Length:500m-2000m/Rool or as customer requiredApplication:industryCertification:ISO
C Content (%):<=0.08%Si Content (%):<=1%Place of Origin: China (Mainland)
Brand Name:WF STEELModel Number:ER308LAlias:chrome vanadium steel wire
Finish:bright, hard and soft etc.Business type:manufacturerPrice:2000-5000 usd/MT
Material:stainless steelMelting Point:standard

Packaging & Delivery

Packaging Detail:stainless steel coil,spool, bundle,wooden case ,etc .,
Delivery Detail:7-30 days, mainly with your true quantity,stocks immediately

Specifications

chrome vanadium steel wire
Grade:200,300,400,600series
Diameter:0.02-15mm
Finish:bright, hard and soft

chrome vanadium steel wire

1) Grade: 201,202,301,304,304L,310S,316,316L,410,430,etc.

2) Standard: AISI, ASTM, DIN, GB, JIS, SUS

3) Thickness:0.01mm~25mm  

4) Condition: soft wire, semi-soft wire, hard wire

5) Surface finish: electrolysis bright, bright, matt

6) Packing: Nylon bag, Woven bag, coilor according to client’s requirement

Terms:

1) Loading Port: Shanghai

2) Delivery term: FOB,CFR, CIF

3) Delivery lead time: 10 working days after received deposit.

4) Payment term:30% by T/T as deposit., balance will be paid by T/T before loading,

5) Quality assurance: Mill Test Certificate is supplied with shipment, third Party Inspection is acceptable.

Product Application:

With bright surface, slight magnetism and no cracks on forming, is widely used in bicycle fittings, kitchen and sanitation tools, goods shelf, pet cages, gill racks, decorative handles and baskets, food and medical machinery accesses, etc.

Chemical composition and physical properties:

Type AISIC Max %Mn Max % P Max% S Max% Si Max% Cr% Ni% Mo%
2010.155.50-7.500.060.03116.000-18.000.5-
2020.157.50-10.000.060.03117.00-19.003.-0-5.00-
204CU0.086.5-8.50.060.03216.0-17.01.5-3.0-
3020.1520.0450.03117.00-19.008.00-10.00-
302HQ/0.0320.0450.02117.00-19.009.00-10.00-
304CU
304HC0.040.80-1.700.040.0150.3-0.618-198.5-9.5-
3030.0720.0450.25 Min117-198.0-10.00.6
3040.0820.0450.03118.00-20.008.0-10.50-
304L0.0320.0450.03118.00-20.008.00-12.00-
310 S0.0551.50.040.0050.725.0-28.019-22-
3140.2520.0450.031.50-3.0023.00-26.0019.00-22.00-
3160.0620.0450.03116.00-18.0010.00-14.002.00-3.00
316L0.0320.0450.03116.00-18.0010.00-14.002.00-3.00
316Ti0.0820.0450.030.7516.00-18.0010.00-14.002.00-3.00
3470.0820.0450.03117.00-19.009.00-13.00-
3210.0620.0450.01.40-.6017-19.009.4-9.6-
ER3080.0820.0450.03117-199.5-13.0-
ER308L0.0251.50/2.000.0250.020.519.0/21.09.5/11.0-
ER3090.081.50/2.500.020.0150.523.0/25.020.0/14.0-
ER309L0.0251.50/2.500.020.0150.523.0/25.012.0/14.0-
ER316L0.021.50/2.000.020.020.518.0/20.012.00-14.002.00-3.00
430L0.0310.040.03116.00-18.00 -
4340.0810.040.03116.00-18.00-0.90-1.40

Our Advantage:

Our product has a good ductility, high tensile strength and can be last long in use. High flexibility, abrasion resistance and corrosion resistance, unified diameter, smooth surface, bright color, ect. Especially the electrolysis bright wire, it’s our “hot sales” product since the surface and quality will give you a satisfactory answer

Q: How is steel wire rod inspected for surface defects?
Steel wire rod is inspected for surface defects through a process known as visual inspection and non-destructive testing. Firstly, visual inspection is performed by trained personnel who carefully examine the surface of the wire rod for any visible defects such as scratches, cracks, pits, or deformations. This is done by using proper lighting and magnifying tools to ensure thorough detection. In addition to visual inspection, non-destructive testing techniques are employed to further assess the quality of the wire rod. One commonly used method is magnetic particle inspection, which involves magnetizing the wire rod and applying a magnetic particle solution on its surface. Any surface defects, such as cracks or discontinuities, will cause the magnetic particles to cluster together, making the defect visible. Another method used is ultrasonic testing, where high-frequency sound waves are transmitted through the wire rod. These waves are then reflected back by any internal or external defects, allowing the inspector to detect and measure the size and depth of the defects. Furthermore, eddy current testing is another non-destructive technique utilized for surface inspection. It involves inducing an electric current in the wire rod and measuring the resulting magnetic field. Any surface defects will cause changes in the magnetic field, which are then detected by the inspection equipment. Overall, a combination of visual inspection and non-destructive testing methods is employed to ensure that steel wire rods are thoroughly inspected for surface defects, providing a reliable and high-quality product to consumers.
Q: How are steel wire rods used in the production of wire coat hangers for hanging clothes?
The durability and strength of steel wire rods make them essential for producing wire coat hangers used to hang clothes. These rods are the primary material for creating the frame and shape of the hangers. To begin, the steel wire rods are cut into the desired length for the coat hangers, ensuring the appropriate size for hanging clothes. Specialized machinery is then used to bend and shape the rods into the classic triangular form commonly associated with coat hangers. Next, the ends of the wire rods are smoothed and rounded off to prevent any sharp edges that could potentially damage clothing. This step is crucial for ensuring the safety of the hangers and avoiding harm to the garments being hung. Once the wire rods have been shaped and smoothed, they undergo a protective coating process, typically using plastic or rubber. This coating serves multiple purposes. Firstly, it prevents rusting or corrosion, ensuring the longevity of the hangers. Additionally, it provides a non-slip surface that helps prevent clothes from slipping off. Finally, the coated wire rods are securely attached to a separate hook at the top, allowing the hangers to be hung on a closet rod or any suitable hanging mechanism. This hook is usually made of either plastic or metal and ensures the stability and functionality of the coat hanger. Overall, steel wire rods are vital in the production of wire coat hangers, providing the necessary strength, durability, and shape for hanging clothes. Their versatility and ability to be shaped and coated make them an ideal material for creating reliable and long-lasting hangers.
Q: What are the different straightening methods for steel wire rod?
There are several different straightening methods for steel wire rods, each designed to achieve specific results based on the desired level of straightness and the type of wire being processed. Some of the most common straightening methods used in the industry include: 1. Mechanical straightening: This method involves passing the wire rod through a series of straightening rolls or dies that are positioned at various angles. The rolls or dies apply pressure to the wire, gradually bending it back into a straight shape. Mechanical straightening is commonly used for low carbon steel wire rods. 2. Thermal straightening: In this method, the wire rod is heated to a specific temperature and then cooled rapidly, causing the metal to contract and straighten. The wire is usually passed through a series of water or air cooling chambers to achieve the desired straightness. Thermal straightening is typically used for medium to high carbon steel wire rods. 3. Hydraulic straightening: This method utilizes hydraulic cylinders to apply pressure to the wire, straightening it by bending it in the opposite direction of its natural curve. Hydraulic straightening can be used for various types of steel wire rods, but it is especially effective for high-strength wires. 4. Rotary straightening: Also known as rotary swaging, this method involves placing the wire rod in a rotating drum or cage that contains a series of tapered rolls. As the wire passes through the rolls, it is gradually straightened due to the forces exerted by the rotating rolls. Rotary straightening is commonly used for stainless steel wire rods and other high-alloy materials. 5. Combination methods: Some manufacturers use a combination of different straightening methods to achieve the desired results. For example, a wire rod may undergo initial mechanical straightening followed by thermal straightening to further improve its straightness. It is important to note that the choice of straightening method depends on various factors such as the type of steel wire rod, its diameter and tensile strength, and the desired level of straightness. Additionally, each method has its own advantages and limitations, so it is crucial to select the most suitable method based on the specific requirements of the wire rod application.
Q: How is steel wire rod used in the manufacturing of wire grids?
Steel wire rod is used in the manufacturing of wire grids as it serves as the raw material for creating the wire mesh structure. The wire rod is first processed through various techniques such as drawing, annealing, and galvanizing to obtain the desired thickness, strength, and corrosion resistance. Once prepared, the wire rod is then woven or welded to form the wire grid, which is commonly used in industries such as construction, agriculture, and transportation for applications like fencing, shelving, and partitioning.
Q: How is steel wire rod used in the manufacturing of wire mesh trays?
Steel wire rod is used in the manufacturing of wire mesh trays as it serves as the primary raw material for the production of the wire mesh. The steel wire rod is first drawn into a thin, continuous wire, which is then woven or welded to create the mesh structure of the trays. This process ensures that the wire mesh trays have a strong and durable construction, making them suitable for various applications such as organizing cables, supporting electrical components, or even acting as a base for concrete reinforcement.
Q: How is steel wire rod used in the manufacturing of wire forms for fishing nets?
The manufacturing of wire forms for fishing nets relies heavily on steel wire rod. This essential component undergoes a series of steps to be transformed into a usable wire form. Cleaning, annealing, and drawing processes are employed to achieve the desired diameter and tensile strength. These procedures are crucial in ensuring that the wire possesses the necessary strength and flexibility to withstand the tension and stress it will encounter when used in fishing nets. Once the wire rod has been converted into wire, it is then utilized to fashion the various wire forms needed for fishing nets. These wire forms, including hoops, rings, loops, and connectors, are vital in constructing a functional fishing net. Specialized machinery and techniques, such as bending, cutting, and welding, are employed to create these wire forms according to the specific design requirements. The wire forms are then assembled together to form the structure of the net. The utilization of steel wire rod in the manufacturing of wire forms for fishing nets offers numerous advantages. Steel is renowned for its high strength and durability, making it an ideal material for withstanding the harsh conditions and constant tension experienced by fishing nets. Moreover, steel wire rod is resistant to corrosion, ensuring that the wire forms will have a long lifespan even when exposed to water and other environmental factors. In conclusion, steel wire rod plays a vital role in the manufacturing of wire forms for fishing nets. It serves as the raw material from which the wire forms are created, providing the necessary strength, flexibility, and durability required for a functional fishing net.
Q: How are steel wire rods used in the manufacturing of wire brushes for cleaning purposes?
Steel wire rods are an essential component in the manufacturing of wire brushes for cleaning purposes. These wire rods are typically made from high-quality steel, known for its strength, durability, and flexibility. To create wire brushes, the steel wire rods undergo a series of processes. First, the wire rods are carefully selected based on their composition and tensile strength. They are then passed through a wire drawing machine, which reduces their diameter and increases their length. This process allows for the creation of thin and long wires that are perfect for brush bristles. Once the wires are drawn, they are straightened and cut to the desired length. The lengths can vary depending on the type of brush being produced. The straightened wires are then inserted into a metal ferrule or twisted together to form a bundle, depending on the brush design. The wire bristles are then attached to a handle or base, which can be made of wood, plastic, or metal. This assembly process can be done manually or with the help of specialized machinery. The bristles are secured tightly to ensure they do not come loose during use. Steel wire rods are favored for manufacturing wire brushes due to their excellent cleaning properties. The strength and flexibility of steel allow the bristles to effectively remove dirt, grime, and debris from various surfaces. They can be used on a wide range of materials, including metal, wood, and concrete. Wire brushes made from steel wire rods are commonly used for cleaning applications such as removing rust, paint, or corrosion from surfaces, preparing surfaces for painting or welding, cleaning welding joints, and scrubbing hard-to-reach areas. They are also utilized in industries such as automotive, manufacturing, construction, and maintenance. In summary, steel wire rods play a crucial role in the manufacturing of wire brushes for cleaning purposes. Their strength, durability, and flexibility make them ideal for creating effective and reliable cleaning tools. Whether it's for removing rust, cleaning welds, or scrubbing surfaces, wire brushes made from steel wire rods are an essential tool in many industries and households.
Q: What are the growth opportunities in the steel wire rod market?
Businesses operating in the steel wire rod industry can take advantage of several growth opportunities in the market. To begin with, the demand for steel wire rods is heavily influenced by the construction sector. As urbanization speeds up worldwide, the construction of residential and commercial buildings, infrastructure projects, and transportation networks is projected to increase. This will lead to a higher demand for steel wire rods, which are extensively used in reinforced concrete structures, wire mesh, and pre-stressed concrete applications. Furthermore, the automotive industry provides another significant avenue for growth in the steel wire rod market. With the ongoing evolution of the automotive sector, there is a growing requirement for lightweight and high-strength materials. Steel wire rods are utilized in the production of various automotive components, including suspension springs, seat frames, and tire reinforcements. As the demand for electric vehicles rises and there is a need for lighter materials to enhance fuel efficiency, the demand for steel wire rods in the automotive industry is expected to increase. The energy sector also presents potential growth opportunities for the steel wire rod market. The development of renewable energy sources, such as wind and solar power, necessitates the installation of transmission lines and infrastructure. Steel wire rods are employed in the manufacturing of cables and conductors used for power transmission. As the focus on clean energy intensifies and renewable energy projects expand globally, the demand for steel wire rods in the energy sector is likely to rise. Moreover, technological advancements and innovation can benefit the steel wire rod market. The utilization of advanced alloys and coatings in manufacturing techniques can enhance the performance and durability of steel wire rods. Additionally, the adoption of automation and digitalization in the production process can improve operational efficiency and reduce costs. Furthermore, emerging economies offer significant growth prospects for the steel wire rod market. As developing countries undergo industrialization and infrastructure development, the demand for steel wire rods is expected to surge. These regions provide a large consumer base and potential for increased manufacturing activities, thus driving the demand for steel wire rods in various applications. In conclusion, the steel wire rod market has numerous growth opportunities driven by the construction and automotive sectors, the energy industry, technological advancements, and emerging economies. By capitalizing on these opportunities, businesses in the steel wire rod market can expand their operations and achieve sustainable growth.
Q: How is steel wire rod priced in the market?
Steel wire rod is typically priced in the market based on various factors such as global supply and demand, production costs, raw material prices, and market competition. Additionally, factors like quality, size, and delivery requirements also influence the pricing of steel wire rod. Overall, it is a dynamic process where market forces play a significant role in determining the price of steel wire rod.
Q: How is steel wire rod used in the production of wire mesh?
Steel wire rod is used in the production of wire mesh by being drawn through a series of dies to reduce its diameter and increase its length. This process, known as wire drawing, results in a thin, continuous wire that is then woven or welded together to create wire mesh. The steel wire rod provides the raw material necessary for the manufacturing of wire mesh, which is commonly used in various applications such as fencing, construction, and filtration.

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