steel wire rod manufactures for SAE1008 SAE1018

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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

(b)COMPANY INTRODUCTION:

Joined in iron and steel line ten years ago, largely involved in reinforcing steel rebar ,wire rod and structure steel etc, representative of many quality factories and local famous big brand, quality and most competitive price are our gurantee.

For the international trade, we had exported to countries in Middle East, South America, Phillipine, Vietnam, Bangladesh, African countries etc. customer satisfaction and self improvement are always our commitment.

(c)Please note the following table for your reference :

Grade	chemical composition
	C	Si ≤0.15	Mn	Als 0.015-0.065	P	S
	C		Mn		Not more than
SAE1008	≤0.10		≤0.50		0.020	0.020
SAE1010	0.08-0.13		0.30-0.60		0.025	0.025
SAE1012	0.10-0.15		0.30-0.60		0.025	0.025
SAE1018	0.15-0,20		0.60-0.90		0.025	0.025

Q: What are the different heat treatments applied to steel wire rod?: Some of the different heat treatments applied to steel wire rod include annealing, normalizing, quenching, and tempering.

Q: What are the transportation options for steel wire rod?: The transportation options for steel wire rod can include trucking, railway transportation, and shipping by sea or air.

Q: What are the factors that affect the strength of steel wire rod?: The factors that affect the strength of steel wire rod include the composition of the steel, the manufacturing process used, the heat treatment applied, the presence of impurities or defects, and the level of strain or stress the wire rod is subjected to. Additionally, factors such as the diameter, length, and surface condition of the wire rod can also influence its strength.

Q: What are the safety precautions to be followed while working with steel wire rod?: To ensure the safety of yourself and others when working with steel wire rods, it is crucial to adhere to various safety measures. Below are some guidelines that should be observed: 1. Personal Protective Equipment (PPE): Always don appropriate PPE, including safety glasses, gloves, and steel-toed boots, in order to shield yourself from potential hazards. 2. Training and Knowledge: Make certain that you have received proper training and possess a solid understanding of the equipment, tools, and procedures involved in working with steel wire rods. 3. Secure Work Area: Maintain a clean and well-organized work area, free from any obstacles or tripping hazards that may lead to accidents. 4. Handling and Storage: Exercise caution when handling steel wire rods to prevent injuries. Utilize proper lifting techniques and equipment when lifting and carrying them. Store them in a designated area away from walkways to avoid accidental contact. 5. Inspection: Regularly inspect the wire rods for any signs of damage, such as sharp edges or protrusions, before and during use. Replace any defective rods immediately. 6. Fire Safety: During cutting or welding processes, steel wire rods can produce sparks. Ensure that the work area is devoid of flammable materials and have suitable fire extinguishing equipment readily accessible. 7. Cutting and Grinding: When cutting or grinding steel wire rods, employ appropriate tools and adhere to safety procedures. Wear a face shield or goggles to safeguard your eyes from flying debris. 8. Secure Fastening: Guarantee that the wire rods are securely fastened during installation or use to prevent them from becoming loose or falling. 9. Communication and Signage: Clearly communicate with individuals in the vicinity about the ongoing work. Utilize warning signs and barricades to prevent unauthorized access to the work area. 10. Emergency Preparedness: Familiarize yourself with emergency procedures and be aware of the location of emergency exits, first aid kits, and safety showers in the event of accidents or injuries. By adhering to these safety precautions, you can mitigate the risks associated with working with steel wire rods and foster a safer working environment for yourself and those around you.

Q: How are steel wire rods used in the manufacturing of piano strings for musical instruments?: Steel wire rods are an essential component in the manufacturing of piano strings for musical instruments. These wire rods are typically made of high-quality steel that is carefully engineered to provide the desired properties for piano strings. The first step in utilizing steel wire rods is to draw them through a series of dies to reduce their diameter and increase their tensile strength. This process, known as wire drawing, ensures that the steel wire rods are strong enough to withstand the tension required for piano strings. Once the steel wire rods have been drawn to the desired size, they are further processed to form the individual piano strings. The wire is cut into specific lengths and then coiled to create the desired shape and size for each string. These coils are then wound around a core wire, which provides stability and enhances the tonal quality of the string. The use of steel wire rods in piano string manufacturing is crucial for several reasons. Firstly, steel is known for its durability and resistance to stretching, making it ideal for withstanding the constant tension and pressure exerted on piano strings. Additionally, steel wire rods have excellent flexibility, allowing the strings to vibrate freely and produce a rich, resonant sound. Moreover, the precise manufacturing process of steel wire rods ensures that the resulting piano strings have consistent quality and uniformity. This is crucial for maintaining the integrity and balance of sound across the entire piano keyboard. In conclusion, steel wire rods play a vital role in the manufacturing of piano strings. Their strength, flexibility, and precision make them an ideal material for producing high-quality strings that can withstand the demanding requirements of a piano.

Q: What are the different surface finishes available for steel wire rods?: There are several different surface finishes available for steel wire rods, each offering unique properties and benefits. Some of the common surface finishes include: 1. Black Oxide Finish: This finish is achieved by applying a chemical treatment to the surface of the steel wire rod, resulting in a black-colored oxide layer. It provides increased corrosion resistance and improved lubricity. 2. Galvanized Finish: In this process, the steel wire rod is coated with a layer of zinc, which provides excellent corrosion resistance. Galvanized wire rods are commonly used in outdoor applications or environments with high humidity. 3. Electroplated Finish: This finish involves applying a thin layer of metal, such as nickel or chromium, to the surface of the steel wire rod through an electroplating process. It enhances the appearance, corrosion resistance, and durability of the wire rod. 4. Powder Coated Finish: Powder coating involves applying a dry powder to the surface of the steel wire rod and then heating it to form a protective and decorative layer. This finish provides excellent resistance to chipping, scratching, and corrosion. 5. Phosphated Finish: Phosphating is a chemical process that forms a layer of phosphate crystals on the surface of the steel wire rod. It improves the adhesion of subsequent coatings, enhances corrosion resistance, and promotes better lubrication. 6. Bare or Natural Finish: In this case, the steel wire rod is left untreated, with no additional coatings or finishes applied. It is typically used in applications where aesthetics are not a concern, and the primary focus is on strength and durability. The choice of surface finish for steel wire rods depends on the specific application requirements, such as corrosion resistance, appearance, lubrication, and environmental conditions.

Q: What are the main factors influencing the choice of steel wire rod quality standards?: The main factors influencing the choice of steel wire rod quality standards include the intended application or use of the wire rod, industry regulations and standards, customer requirements, and the overall quality and performance expectations of the end product. Additionally, factors such as cost, availability, and the reputation of the supplier or manufacturer may also play a role in determining the standards for steel wire rod quality.

Q: How does the tensile strength of steel wire rod vary with different heat treatment processes?: The heat treatment process applied can greatly impact the tensile strength of steel wire rod. Various heat treatment processes, including annealing, normalizing, quenching, and tempering, can have a profound influence on the wire rod's tensile strength. Annealing is a process where the steel wire rod is heated to a specific temperature and then slowly cooled. This helps alleviate internal stresses and enhance the wire rod's ductility. Consequently, the tensile strength decreases, but the elongation and overall toughness improve. On the contrary, normalizing involves heating the steel wire rod to a higher temperature than annealing, followed by cooling in still air. This refines the grain structure, enhancing both strength and hardness. The tensile strength increases, but there may be a slight decrease in ductility and toughness. Quenching is a rapid cooling process that entails immersing the steel wire rod in a quenching medium, like oil or water, after heating it to a high temperature. This leads to the formation of a strong and hard structure known as martensite. Consequently, the tensile strength significantly increases, but ductility decreases substantially. Lastly, tempering involves reheating the quenched wire rod to a lower temperature and then slowly cooling it. This helps relieve internal stresses and reduce brittleness caused by quenching. Therefore, the tensile strength slightly decreases, but ductility and toughness improve. To summarize, different heat treatment processes have varying effects on the tensile strength of steel wire rod. Annealing decreases tensile strength but improves ductility; normalizing increases tensile strength while slightly reducing ductility; quenching significantly increases tensile strength but decreases ductility; tempering slightly reduces tensile strength while improving ductility. Hence, the choice of heat treatment process must be carefully considered based on the desired properties of the steel wire rod.

Q: How is steel wire rod used in the production of wire shelving?: Steel wire rod is used in the production of wire shelving as the primary raw material. It is first shaped and cut into the desired length and thickness, then bent and welded to form the structure of the shelving. The steel wire rod provides strength, durability, and stability to the shelves, ensuring they can support heavy loads and withstand daily use.

Q: How is the quality of steel wire rod measured?: The quality of steel wire rod is measured through a series of tests and evaluations to assess its mechanical properties, chemical composition, and overall performance. The key parameters used to determine the quality of steel wire rod include: 1. Tensile Strength: This test measures the maximum amount of stress a wire rod can withstand before breaking or experiencing deformation. It indicates the rod's ability to bear weight and resist tension. 2. Yield Strength: This test determines the level of stress at which the wire rod begins to deform permanently. It indicates the rod's ability to return to its original shape after being subjected to stress. 3. Elongation: This test measures the percentage increase in length of the wire rod before it breaks under tension. It provides insights into the rod's ductility and ability to elongate without losing its integrity. 4. Hardness: This test determines the resistance of the wire rod to indentation or scratching. It provides an indication of the rod's strength and durability. 5. Chemical Composition: The composition of the steel wire rod is analyzed to ensure it meets the required standards and specifications. It includes evaluating the levels of carbon, manganese, silicon, sulfur, phosphorus, and other alloying elements. 6. Surface Quality: The wire rod's surface is inspected visually and sometimes through microscopic analysis to detect any defects, such as cracks, scratches, or impurities. A smooth and clean surface is crucial for optimal performance. 7. Dimensional Accuracy: The wire rod's diameter and length are measured to ensure they meet the specified tolerances. Any deviations from the required dimensions can affect the rod's usability in various applications. 8. Microstructure Analysis: This examination involves detailed observation of the wire rod's internal structure using microscopy. It helps identify the presence of any abnormalities, such as grain size, inclusions, or segregation, that may impact its strength and performance. By conducting these tests and evaluations, manufacturers can ensure that the steel wire rod meets the required quality standards and is suitable for its intended applications, such as manufacturing wire products, reinforcing materials, or springs.

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