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:Can steel wire rod be used in high-temperature applications?: Yes, steel wire rod can be used in high-temperature applications. Steel has excellent heat-resistant properties and can withstand high temperatures without losing its strength or structural integrity. However, the specific grade and composition of the steel wire rod should be considered to ensure it is suitable for the intended high-temperature environment.

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 safety requirements for steel wire rod used in elevator wire ropes?: Ensuring the reliable and secure operation of elevators requires strict adherence to safety requirements for steel wire rod used in elevator wire ropes. These requirements, established by industry standards and regulations, guarantee the strength, durability, and performance of the wire ropes. Key safety requirements for steel wire rod in elevator wire ropes include: 1. Material Quality: Elevator wire ropes must use steel wire rod that meets specific material standards, typically set by organizations like ASTM. These standards define the chemical composition, mechanical properties, and other characteristics of the steel, ensuring it can withstand the necessary loads and stresses. 2. Strength: Elevator wire ropes experience significant loads and stresses during operation, so the steel wire rod must possess high tensile strength to withstand these forces without breaking. Industry standards establish minimum tensile strength requirements to ensure passenger safety and the reliability of the elevator system. 3. Fatigue Resistance: Due to repeated bending and flexing, elevator wire ropes are prone to fatigue failure if the steel wire rod lacks proper resistance. The steel wire rod should exhibit excellent fatigue resistance properties, enabling the wire rope to endure millions of cycles without degradation. 4. Surface Quality: The surface of the steel wire rod must be smooth and defect-free to avoid weakening the wire rope. Surface irregularities like pits, scratches, or deformations can act as stress concentration points, reducing the overall strength and safety of the wire rope. 5. Dimensional Accuracy: Proper fit and functionality require the steel wire rod to meet specific dimensional tolerances, including diameter, roundness, and straightness. These tolerances are vital for the correct assembly and operation of the wire ropes. 6. Testing and Certification: Manufacturers of steel wire rod for elevator wire ropes should conduct rigorous testing to ensure compliance with safety requirements. These tests may cover tensile strength, fatigue, surface inspection, and dimensional measurements. Certification from recognized bodies or compliance with industry standards like ISO 9001 further guarantees the quality and safety of the steel wire rod. By adhering to these safety requirements, elevator manufacturers and operators can have confidence in the reliability and performance of their wire ropes, ultimately ensuring passenger safety and the smooth functioning of elevator systems.

Q:How is steel wire rod used in the production of wire ropes for marine applications?: Steel wire rod is an essential component in the production of wire ropes for marine applications. Wire ropes are widely used in the marine industry for various purposes such as mooring, towing, lifting, and rigging operations. Steel wire rod, which is typically made from high carbon steel, serves as the raw material for manufacturing wire ropes. The wire rod undergoes a series of processes to transform it into the final product. Firstly, the wire rod is drawn through a series of dies to reduce its diameter and increase its length. This process is known as wire drawing and is performed to achieve the desired size and strength of the wire rope. The drawn wire is then coated with a lubricant to enhance its corrosion resistance and reduce friction during the subsequent processes. Next, the lubricated wire is twisted together with other wires to form strands. These strands are then helically laid around a core wire to create the wire rope. The core wire can be made of steel or a synthetic material depending on the specific application requirements. The strength and durability of the wire rope depend on the quality of the steel wire rod used. The high carbon content in the wire rod provides the necessary strength and load-bearing capacity required for marine applications. Additionally, the wire rod's resistance to corrosion is crucial in ensuring the longevity and reliability of the wire rope in harsh marine environments. Furthermore, the mechanical properties of the wire rod, such as tensile strength and ductility, are crucial factors in determining the performance of the wire rope. These properties enable the wire rope to withstand heavy loads, resist deformation, and endure the dynamic forces encountered during marine operations. In conclusion, steel wire rod plays a critical role in the production of wire ropes for marine applications. Its high strength, corrosion resistance, and mechanical properties make it an ideal raw material for manufacturing wire ropes that can withstand the demanding conditions of the marine industry.

Q:How is steel wire rod used in the manufacturing of wire cloths?: The production of wire cloths relies heavily on steel wire rod, an indispensable component. This material undergoes a series of processes to transform it into fine wires. Initially, the steel wire rod is drawn through a die, reducing its diameter and increasing its length. This drawing process enhances the wire's strength and flexibility. Once the wire has been drawn, it is woven or knitted together to form the wire cloth. Different weaving or knitting patterns can be employed to achieve various mesh sizes and configurations, depending on the intended application of the wire cloth. The durability and tensile strength of the steel wire rod ensure that the resulting wire cloth is robust and capable of withstanding the demands of its designated usage. Wire cloths have broad applications across multiple industries, including filtration, sieving, screening, and separation processes. For example, the mining industry commonly employs wire cloths for mineral sieving and separation. In construction, wire cloths serve as reinforcing materials in concrete structures, enhancing their strength and durability. The food and beverage industry utilizes wire cloths for filtration, guaranteeing the elimination of impurities and contaminants. In conclusion, steel wire rod plays a pivotal role in the manufacturing of wire cloths. It serves as the essential raw material, which is then transformed into fine wires that are woven or knitted to create wire cloths for diverse industrial applications.

Q:What are the different types of steel wire rod coatings used for increased adhesion?: There are several types of steel wire rod coatings used to enhance adhesion, including zinc coating, copper coating, tin coating, and polymer coating.

Q:How is steel wire rod used in the manufacturing of staples?: Steel wire rod is commonly used in the manufacturing of staples due to its strength and durability. It is first drawn into the desired diameter and then cut into appropriate lengths for staple production. The wire rod is then shaped into U-shaped or flat formations, creating the basic structure of the staple. These staples are then further processed, including processes like galvanizing or coating, to enhance their corrosion resistance. Overall, steel wire rod serves as a fundamental material in staple manufacturing, providing the necessary strength and structure for these widely used fasteners.

Q:How does the price of steel wire rod fluctuate in the market?: The market for steel wire rod experiences price fluctuations due to various factors. One significant factor is the dynamic between supply and demand within the steel industry. When there is a strong demand for steel wire rod, such as during periods of economic growth or construction booms, the price tends to rise. Conversely, when there is a decrease in demand or an oversupply of steel wire rod, the price tends to drop. Another factor that impacts the price of steel wire rod is the cost of raw materials. Typically, steel wire rod is produced from iron ore, which is subject to price changes in the global market. If the cost of iron ore increases, it can lead to higher production costs for steel manufacturers, resulting in higher prices for steel wire rod. In addition, fluctuations in energy prices can influence the price of steel wire rod. Steel production requires a significant amount of energy, particularly in the form of electricity and natural gas. If energy prices rise, it can increase production costs and ultimately lead to higher prices for steel wire rod. Moreover, changes in trade policies and tariffs can also have an impact on the price of steel wire rod. Governments may impose tariffs or trade restrictions on steel imports, which can limit the supply of steel wire rod in the market and potentially raise prices. Lastly, market speculation and investor sentiment can also contribute to price fluctuations in the steel wire rod market. Investors and traders may anticipate future changes in supply and demand or react to economic indicators, resulting in volatile price movements. In summary, the price of steel wire rod is influenced by a range of factors, including supply and demand dynamics, raw material costs, energy prices, trade policies, and market speculation. These factors can cause the price to fluctuate in response to changes in the broader economy and industry conditions.

Q:What are the different mechanical testing methods for steel wire rod?: There are several mechanical testing methods used to evaluate the properties and performance of steel wire rods. These methods are crucial in ensuring the quality and reliability of the wire rods in various applications. Some of the commonly used mechanical testing methods for steel wire rod are: 1. Tensile Testing: Tensile testing is performed to measure the tensile strength, yield strength, and elongation of the steel wire rod. This test involves subjecting the wire rod to axial tension until it fractures, allowing for the determination of its mechanical properties. 2. Bend Testing: Bend testing is conducted to assess the ductility and resistance to cracking of the steel wire rod. In this test, the wire rod is bent to a specified angle or diameter, and any cracks or defects are observed. 3. Impact Testing: Impact testing is employed to evaluate the toughness and impact resistance of the steel wire rod. This test involves striking the wire rod with a pendulum or hammer, measuring the energy absorbed during fracture. 4. Hardness Testing: Hardness testing measures the ability of the steel wire rod to resist indentation or penetration. Common methods for hardness testing include Brinell, Rockwell, and Vickers tests. 5. Fatigue Testing: Fatigue testing is used to assess the resistance of the steel wire rod to repeated loading or cyclic stress. This test involves subjecting the wire rod to a specified number of cyclic loading cycles until it fails, helping to determine its fatigue strength. 6. Microscopic Examination: Microscopic examination involves the use of optical or electron microscopes to inspect the microstructure of the steel wire rod. This method helps identify any defects, impurities, or changes in the material that may affect its mechanical properties. 7. Dimensional Measurements: Dimensional measurements are performed to ensure that the steel wire rod meets the required specifications in terms of diameter, cross-sectional area, and length. These measurements are crucial for determining the wire rod's mechanical properties accurately. By utilizing these mechanical testing methods, manufacturers and researchers can assess the quality and performance of steel wire rods, ensuring they meet the desired standards and requirements for their intended applications.

Q:How is steel wire rod used in the production of wire mesh reinforcement?: Wire mesh reinforcement relies on steel wire rod, an indispensable element in its production. This raw material is fundamental for manufacturing wire mesh, extensively employed in construction and other sectors to reinforce concrete structures. The process of producing wire mesh reinforcement commences with the treatment of steel wire rod. Typically, the rod undergoes a series of manufacturing steps, wherein it is drawn through dies to decrease its diameter and increase its length. This wire drawing procedure yields a longer and thinner wire with enhanced mechanical properties. Subsequently, the drawn wire is fed into a specialized apparatus known as a wire mesh welding machine. This machine utilizes electric resistance welding to connect the wires, forming a grid-like pattern. The welding process guarantees secure bonding at the intersections, resulting in a robust and long-lasting wire mesh. The application of wire mesh reinforcement spans across various construction projects, including the creation of concrete slabs, walls, and columns. It is embedded within concrete structures to augment strength, prevent cracking, and enhance the overall load-bearing capacity. By acting as reinforcement, the wire mesh evenly distributes forces and stresses throughout the concrete, thereby bolstering its structural integrity. Moreover, wire mesh reinforcement finds utility in diverse industries such as agriculture, mining, and manufacturing. In agriculture, it is commonly employed as fencing to safeguard livestock and crops. In mining, wire mesh serves safety purposes, preventing rockfalls and supporting tunnel walls. In manufacturing, wire mesh is utilized for filtration, separation, containment, and other applications. To summarize, steel wire rod assumes a critical role in wire mesh reinforcement production. Its transformation through wire drawing and subsequent welding forms the foundation for the creation of durable and versatile wire mesh. This reinforcement is widely utilized in construction and other industries to enhance the strength and integrity of various structures.

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