• 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:
-
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: What are the advantages of using steel wire rod?
There are several advantages of using steel wire rod. Firstly, steel wire rod is known for its high tensile strength, which makes it suitable for applications that require extra durability and strength. Secondly, steel wire rod has excellent corrosion resistance properties, making it a reliable choice for outdoor and marine applications where exposure to moisture and harsh weather conditions is common. Additionally, steel wire rod has good formability and can be easily shaped and bent without losing its strength, allowing for versatile applications in various industries. Moreover, steel wire rod is cost-effective and readily available, making it a cost-efficient choice for manufacturers and construction projects. Overall, the advantages of using steel wire rod include its strength, corrosion resistance, formability, and cost-effectiveness.
Q: How is steel wire rod tested for ultimate tensile strength?
Steel wire rod is typically tested for ultimate tensile strength using a universal testing machine. This machine applies a gradually increasing force to the rod until it fractures. The maximum force applied at the point of fracture is then used to determine the ultimate tensile strength of the steel wire rod.
Q: How is steel wire rod used in the manufacturing of suspension components for automobiles?
Due to its superior strength and durability, steel wire rod is widely utilized in the production of suspension components for automobiles. These essential components, including coil springs, torsion bars, and stabilizer bars, are responsible for providing stability, control, and comfort to the vehicle's ride. Coil springs, a crucial part of the suspension system, are manufactured using steel wire rods. Designed to absorb shocks and vibrations from the road, coil springs ensure a smooth and comfortable ride for passengers. The steel wire rod is typically shaped into a helical form and possesses high tensile strength, enabling it to withstand the compression and extension forces exerted on it. Another type of suspension component utilizing steel wire rod is the torsion bar. These bars resist the twisting motion of the suspension system, promoting stability and preventing excessive body roll during cornering. Torsion bars made from steel wire rods with specific properties, such as high yield strength and torsional rigidity, are able to withstand the required torque and stress. Stabilizer bars, also known as sway bars or anti-roll bars, are commonly employed in suspension systems to reduce body roll during cornering. These bars are constructed using steel wire rods with specific diameters and stiffness. By forming the steel wire rod into a tubular shape, the stabilizer bar can effectively resist the twisting forces encountered when the vehicle turns. The high strength of the steel wire rod ensures that the stabilizer bar can efficiently transfer forces from one side of the suspension system to the other, minimizing body roll and enhancing vehicle stability. To recapitulate, steel wire rod plays a vital role in the manufacturing of suspension components for automobiles. Its exceptional strength, durability, and resistance to various forces make it an ideal material for coil springs, torsion bars, and stabilizer bars. By incorporating steel wire rods in the production of suspension components, automotive manufacturers can guarantee the performance, safety, and comfort of their vehicles.
Q: What are the environmental impacts of steel wire rod production?
The environmental impacts of steel wire rod production mainly include energy consumption, greenhouse gas emissions, water usage, and waste generation. The production process involves high energy inputs, primarily from fossil fuels, leading to the release of carbon dioxide and other greenhouse gases. Additionally, the extraction and processing of raw materials, like iron ore and coal, can contribute to habitat destruction and air pollution. Water usage is significant in steelmaking, especially during cooling and cleaning processes, which can strain local water resources. Lastly, waste generation from the production process, such as slag and emissions from steelmaking furnaces, can contribute to pollution if not managed properly.
Q: What are the different tensile testing methods for steel wire rod?
Steel wire rods can be evaluated for their mechanical properties using various tensile testing methods. These methods aim to measure characteristics like strength, ductility, and other important factors. Some commonly used methods for testing steel wire rods include: 1. The Standard Tensile Test involves subjecting a sample of the steel wire rod to an increasing load until it breaks. This allows for the calculation of properties like ultimate tensile strength, yield strength, and elongation at fracture. 2. The Charpy Impact Test measures the energy absorbed during the fracture of a notched specimen. It involves striking the sample with a pendulum hammer and recording the absorbed energy. This test is useful for assessing the material's resistance to sudden impact or shock loading. 3. The Bend Test evaluates the material's ductility and resistance to cracking by bending a specimen to a specific angle without fracturing. Any signs of cracking or fracture are noted during this test. 4. The Hardness Test determines the material's resistance to penetration or indentation. Different hardness testing methods, such as Rockwell, Brinell, and Vickers tests, are available. These tests involve applying a known load to the specimen surface and measuring the resulting indentation. Hardness values can be correlated to tensile strength, making this test useful for quality control. 5. The Fatigue Test evaluates the material's endurance limit and fatigue life under repeated cyclic loading. The specimen is subjected to varying loads or stress amplitudes until failure occurs. This test helps determine the material's ability to withstand repetitive loading conditions over time. Overall, these various tensile testing methods provide valuable information about the mechanical properties of steel wire rods. This helps engineers and manufacturers ensure that the material meets the required specifications for its intended applications.
Q: How is the quality of steel wire rod determined?
The quality of steel wire rod is determined through various factors such as chemical composition, mechanical properties, surface finish, and dimensional accuracy. These factors are assessed through rigorous testing and inspection methods, including chemical analysis, tensile strength testing, surface inspection, and dimensional measurements. Additionally, the adherence to specific industry standards and specifications further ensures the quality of steel wire rod.
Q: What are the safety precautions for handling steel wire rod?
Some safety precautions for handling steel wire rod include wearing appropriate personal protective equipment (PPE) such as gloves, safety glasses, and steel-toed boots to protect against cuts and injuries. It is important to handle the wire rod carefully to avoid sharp edges or protruding ends. Using lifting equipment and proper lifting techniques can help prevent strain or back injuries. Additionally, ensuring a clean and organized work area can minimize tripping hazards. Regular inspections of the wire rod for any defects or damage should also be conducted to prevent accidents.
Q: What are the advantages of using steel wire rod in agricultural applications?
Using steel wire rod in agricultural applications offers several advantages. Firstly, steel wire rod is known for its strength and durability, making it ideal for withstanding the harsh conditions found in agricultural environments. It can withstand heavy loads, resist corrosion, and endure extreme temperatures. Additionally, steel wire rod is highly flexible, allowing it to be easily shaped and manipulated for various agricultural purposes. Its versatility makes it suitable for applications such as fencing, trellising, and the construction of animal enclosures. Moreover, steel wire rod is cost-effective and widely available, making it a practical choice for farmers and agricultural businesses. Overall, the use of steel wire rod in agricultural applications provides the benefits of strength, durability, flexibility, versatility, and affordability.
Q: What is the size range of steel wire rod?
The size of steel wire rod may differ depending on the specific application and industry requirements. Typically, steel wire rod comes in diameters ranging from 5.5mm to 20mm. Nonetheless, there may be deviations beyond this range to meet specific customer demands. The selection of the size range is influenced by factors like intended usage, strength prerequisites, and manufacturing capacities. It is crucial to seek advice from steel wire rod manufacturers or suppliers to ascertain the suitable size range for a given application.
Q: How does the elongation of steel wire rod vary with different wire drawing processes?
The elongation of a steel wire rod can vary depending on the specific wire drawing process employed. Wire drawing is a metalworking process that involves pulling a metal wire rod through a series of dies to reduce its diameter and increase its length. Different wire drawing processes, such as cold drawing or hot drawing, can impact the elongation of the steel wire rod. Cold drawing involves pulling the wire rod through a die at room temperature, while hot drawing involves heating the wire rod and then pulling it through the die. In general, the elongation of a steel wire rod tends to be greater in hot drawing compared to cold drawing. This is because the heat softens the steel, making it more ductile and easier to deform. As a result, the wire rod can undergo greater elongation without breaking or fracturing. In cold drawing, the steel wire rod undergoes less elongation due to its lower ductility at room temperature. The cold drawing process may require multiple passes through different dies to achieve the desired reduction in diameter and increase in length. However, the overall elongation may be relatively lower compared to hot drawing. Additionally, factors such as the reduction ratio, die design, lubrication, and speed of the wire drawing process can also influence the elongation of the steel wire rod. Higher reduction ratios (the difference in diameter before and after each pass) generally result in greater elongation. Proper die design and lubrication can minimize friction and improve the wire's ability to elongate. The speed of the wire drawing process can also affect elongation, as excessive speed can cause tension and decrease elongation. Overall, the elongation of a steel wire rod varies with different wire drawing processes. Hot drawing typically allows for greater elongation due to the increased ductility of the steel at higher temperatures, while cold drawing may result in relatively lower elongation. The specific process parameters and conditions, such as reduction ratio, die design, lubrication, and speed, also play a significant role in determining the elongation of the wire rod.

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