Chrome Vanadium steel wire

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Loading Port:: China Main Port

Payment Terms:: TT OR LC

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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,JIS	Grade:	300 Series	Wire Gauge:	0.01-25mm
Length:	500m-2000m/Rool or as customer required	Application:	industry	Certification:	ISO
C Content (%):	<=0.08%	Si Content (%):	<=1%	Place of Origin:	China (Mainland)
Brand Name:	WF STEEL	Model Number:	ER308L	Alias:	chrome vanadium steel wire
Finish:	bright, hard and soft etc.	Business type:	manufacturer	Price:	2000-5000 usd/MT
Material:	stainless steel	Melting 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 AISI	C Max %	Mn Max %	P Max%	S Max%	Si Max%	Cr%	Ni%	Mo%
201	0.15	5.50-7.50	0.06	0.03	1	16.000-18.00	0.5	-
202	0.15	7.50-10.00	0.06	0.03	1	17.00-19.00	3.-0-5.00	-
204CU	0.08	6.5-8.5	0.06	0.03	2	16.0-17.0	1.5-3.0	-
302	0.15	2	0.045	0.03	1	17.00-19.00	8.00-10.00	-
302HQ/	0.03	2	0.045	0.02	1	17.00-19.00	9.00-10.00	-
304CU	0.03	2	0.045	0.02	1	17.00-19.00	9.00-10.00	-
304HC	0.04	0.80-1.70	0.04	0.015	0.3-0.6	18-19	8.5-9.5	-
303	0.07	2	0.045	0.25 Min	1	17-19	8.0-10.0	0.6
304	0.08	2	0.045	0.03	1	18.00-20.00	8.0-10.50	-
304L	0.03	2	0.045	0.03	1	18.00-20.00	8.00-12.00	-
310 S	0.055	1.5	0.04	0.005	0.7	25.0-28.0	19-22	-
314	0.25	2	0.045	0.03	1.50-3.00	23.00-26.00	19.00-22.00	-
316	0.06	2	0.045	0.03	1	16.00-18.00	10.00-14.00	2.00-3.00
316L	0.03	2	0.045	0.03	1	16.00-18.00	10.00-14.00	2.00-3.00
316Ti	0.08	2	0.045	0.03	0.75	16.00-18.00	10.00-14.00	2.00-3.00
347	0.08	2	0.045	0.03	1	17.00-19.00	9.00-13.00	-
321	0.06	2	0.045	0.01	.40-.60	17-19.00	9.4-9.6	-
ER308	0.08	2	0.045	0.03	1	17-19	9.5-13.0	-
ER308L	0.025	1.50/2.00	0.025	0.02	0.5	19.0/21.0	9.5/11.0	-
ER309	0.08	1.50/2.50	0.02	0.015	0.5	23.0/25.0	20.0/14.0	-
ER309L	0.025	1.50/2.50	0.02	0.015	0.5	23.0/25.0	12.0/14.0	-
ER316L	0.02	1.50/2.00	0.02	0.02	0.5	18.0/20.0	12.00-14.00	2.00-3.00
430L	0.03	1	0.04	0.03	1	16.00-18.00		-
434	0.08	1	0.04	0.03	1	16.00-18.00	-	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 different types of steel wire rod testing equipment?: There are several types of steel wire rod testing equipment that are commonly used in the industry. These include tension testing machines, hardness testers, surface defect detection devices, ultrasonic flaw detectors, and spectroscopes for chemical composition analysis. Each of these tools serves a specific purpose in ensuring the quality and performance of steel wire rods.

Q: How is steel wire rod used in the manufacturing of wire for solar panels?: Steel wire rod is an essential component in the manufacturing process of wire for solar panels. The high-quality steel wire rods are first carefully selected for their strength, durability, and conductivity properties. These wire rods are then subjected to a series of manufacturing processes to transform them into the required wire for solar panels. The first step involves drawing the steel wire rod through a series of dies to reduce its diameter and increase its length. This process is known as wire drawing and is typically done using specialized machinery. By repeatedly passing the wire rod through smaller dies, the diameter of the wire is reduced while its length is increased. This results in a long, thin wire that is ideal for solar panel applications. Once the wire has been drawn to the desired diameter, it undergoes various treatments to enhance its performance and ensure its suitability for solar panel use. These treatments may include processes such as annealing, which involves heating the wire to high temperatures and then slowly cooling it down. Annealing helps to improve the wire's flexibility, strength, and electrical conductivity. After the wire has been treated, it is carefully inspected for any defects or imperfections. This quality control step is crucial to ensuring that the wire meets the stringent requirements of the solar panel industry. Any wires that do not meet the required standards are discarded, while those that pass the inspection are further processed. The final step involves coating the wire with a protective layer. This coating is usually made of materials like tin, silver, or copper, which provide corrosion resistance and enhance the wire's electrical conductivity. The coated wire is then wound onto spools or reels, ready to be used in the assembly of solar panels. In summary, steel wire rod is an integral part of the manufacturing process for wire used in solar panels. It undergoes various treatments, including wire drawing and annealing, to create a durable and highly conductive wire. By coating the wire with protective materials, its corrosion resistance and electrical properties are further enhanced. The resulting wire is then utilized in the construction of solar panels, helping to harness solar energy and contribute to a more sustainable future.

Q: What are the standard bending requirements for steel wire rod?: The standard bending requirements for steel wire rod depend on the specific application and industry standards. However, some common bending requirements for steel wire rod include achieving a specific radius or angle without causing cracking, breaking, or excessive deformation of the material. These requirements are often specified in terms of minimum bend radii, maximum bend angles, and acceptable levels of distortion or elongation. It is important to consult the relevant industry standards and guidelines to ensure compliance with the specific bending requirements for steel wire rod.

Q: What are the different corrosion protection methods for steel wire rod?: There are several corrosion protection methods for steel wire rods, including galvanization, coating with paint or epoxy, electroplating, and using corrosion inhibitors. Each method provides a barrier between the steel wire rod and the corrosive environment, preventing or slowing down the corrosion process.

Q: How are steel wire rods used in the production of wire coat hangers for hanging clothes?: Steel wire rods are essential in the production of wire coat hangers for hanging clothes due to their durability and strength. These rods serve as the main material used to create the frame and shape of the coat hangers. Firstly, the steel wire rods are cut into the desired length for the coat hangers. This ensures that each hanger is of the appropriate size for hanging clothes. The rods are then bent and shaped using specialized machinery to form the classic triangular shape that we commonly associate with coat hangers. Next, the ends of the wire rods are smoothed and rounded off to prevent any sharp edges that could potentially damage the clothing. This step is crucial to ensure that the hangers are safe to use and won't cause any harm to the clothes being hung. Once the wire rods have been shaped and smoothed, they are coated with a protective layer, usually made of plastic or rubber. This coating serves multiple purposes. Firstly, it prevents the steel rods from rusting or corroding over time, ensuring the longevity of the coat hangers. Additionally, the coating provides a non-slip surface that helps prevent clothes from sliding off the hanger. Finally, the coated wire rods are attached to a hook at the top, which allows the hangers to be hung on a closet rod or any other suitable hanging mechanism. This hook is usually made of a separate material, such as plastic or metal, and is securely attached to the wire rod to ensure the stability and functionality of the coat hanger. Overall, steel wire rods play a vital role in the production of wire coat hangers by providing the strength, durability, and shape necessary for hanging clothes. Their versatility and ability to be shaped and coated make them an ideal material for creating reliable and long-lasting coat hangers.

Q: What are the main factors affecting the market branding of steel wire rod?: The main factors affecting the market branding of steel wire rod include the quality and consistency of the product, price competitiveness, the reputation and trustworthiness of the manufacturer, the availability and reliability of supply, the ability to meet customer specifications and requirements, and the effectiveness of marketing and promotional efforts in creating brand awareness and perceived value. Additionally, factors such as technological advancements, environmental sustainability, and compliance with industry standards and regulations can also influence the market branding of steel wire rod.

Q: What are the different surface protection materials used for steel wire rod?: Steel wire rods can be protected using various surface protection materials. These materials are applied to the wire rod's surface to prevent corrosion and other forms of damage. One commonly used surface protection material for steel wire rods is zinc coating. This involves immersing the wire rod in a hot-dip galvanizing process, which results in a layer of zinc on its surface. Zinc acts as a highly effective corrosion inhibitor and creates a protective barrier between the steel and its environment. This coating is typically used for wire rods that will be exposed to harsh or corrosive conditions. Polymer coating is another surface protection material for steel wire rods. It can be applied using different methods like extrusion or dip coating. These coatings serve as a barrier against moisture, chemicals, and abrasion, effectively preventing corrosion and prolonging the wire rod's lifespan. Polymer coatings are commonly used for wire rods in indoor or outdoor applications that require corrosion resistance. Phosphate coating is a surface protection material that involves immersing the wire rod in a phosphate solution, resulting in a thin phosphate layer on its surface. This coating enhances adhesion for subsequent coatings or paints and offers some corrosion resistance. It is often used as a pre-treatment before applying other surface protection materials. Lastly, epoxy coating is a widely used surface protection material for steel wire rods. It is typically applied through electrostatic spray deposition. Epoxy coatings provide excellent corrosion resistance, chemical resistance, and durability. They are commonly used for wire rods exposed to harsh environments like marine or industrial applications. In conclusion, various surface protection materials, including zinc coating, polymer coating, phosphate coating, and epoxy coating, can be applied to steel wire rods. The selection of these materials depends on the specific requirements of the wire rod and its intended application.

Q: What are the different surface coatings used for steel wire rod?: There are several different surface coatings used for steel wire rod, depending on the intended application and desired properties. Some common coatings include zinc coating (galvanizing), which provides corrosion resistance; copper coating, which enhances conductivity; and oil coating, which reduces friction and improves handling. Other coatings may include phosphate coating for improved adhesion and paintability, or special polymer coatings for specific applications such as wire drawing or welding.

Q: How is the quality of steel wire rod ensured during manufacturing?: To ensure the quality of steel wire rod during manufacturing, rigorous testing, strict quality control measures, and adherence to industry standards are employed. Firstly, thorough inspection and testing of the raw materials used in production are carried out to ensure they meet the required specifications. This involves testing the chemical composition, physical properties, and metallurgical properties of the raw materials. Throughout the manufacturing process, various quality control measures are implemented to monitor and maintain the quality of the steel wire rod. These measures include regular inspections of production equipment, verification of process parameters, and continuous monitoring of key performance indicators. Moreover, samples of the steel wire rod are taken at different stages of the manufacturing process and subjected to a range of tests to assess their quality. These tests can include dimensional analysis, tensile strength testing, hardness testing, surface quality inspection, and other specialized tests based on specific end-use requirements. Additionally, manufacturing facilities often have a dedicated quality control department that oversees the entire production process and conducts comprehensive quality checks. This department ensures that all quality control procedures and standards are followed and promptly identifies and addresses any deviations or non-conformances. Furthermore, steel wire rod manufacturers must comply with industry standards and certifications, such as ISO 9001, which provide guidelines and best practices for quality management systems. These standards ensure that manufacturing processes are standardized and consistently implemented to maintain the quality of the final product. In conclusion, a combination of strict quality control measures, extensive testing, adherence to industry standards, and continuous monitoring of the production process ensures the quality of steel wire rod. These efforts guarantee that the steel wire rod meets the required specifications and is suitable for its intended applications.

Q: What are the different types of steel wire rod coatings used for increased corrosion resistance?: To enhance corrosion resistance, there exist several commonly used coatings for steel wire rods. These coatings are applied to the wire rod's surface to safeguard it against environmental elements that can cause corrosion. Some of the coatings employed for increased corrosion resistance comprise: 1. Zinc Coating: Zinc coatings, like hot-dip galvanizing, find extensive usage in providing corrosion resistance to steel wire rods. The zinc coating acts as a shield between the steel and the surrounding environment, thereby preventing the oxidation of the underlying metal. 2. Aluminum Coating: Steel wire rods frequently benefit from aluminum coatings for heightened corrosion resistance. These coatings generate a protective oxide layer on the wire's surface, thus obstructing the formation of rust and other forms of corrosion. 3. Polymer Coating: Polymer coatings, such as epoxy or polyurethane, are applied to steel wire rods as a protective barrier against corrosion. These coatings are renowned for their exceptional resistance to moisture, chemicals, and abrasion, rendering them suitable for applications involving exposure to harsh environments. 4. Phosphate Coating: Phosphate coatings are often utilized as a pretreatment before applying other protective coatings. These coatings enhance the adhesion of subsequent coatings while providing supplementary corrosion resistance. 5. Chromate Conversion Coating: Steel wire rods can be treated with chromate conversion coatings to bolster their corrosion resistance. These coatings form a thin layer of chromium oxide on the wire's surface, acting as a barrier against corrosion. It is crucial to consider various factors, including the specific application, environmental conditions, and desired level of corrosion resistance, when selecting the appropriate coating.

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