low carbon steel wire rod for drawing

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Loading Port:: China Main Port

Payment Terms:: TT OR LC

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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

Q:What are the different toughness testing methods for steel wire rod?: To assess the strength and durability of steel wire rods, there exist various toughness testing methods. Some commonly utilized techniques include: 1. The Charpy Impact Test: This method entails striking a notched specimen with a pendulum hammer and measuring the energy absorbed during fracture. It offers insights into the material's resistance to impact loading and aids in evaluating the ductile-to-brittle transition temperature. 2. The Izod Impact Test: Similar to the Charpy test, this approach measures the energy absorbed by a notched specimen when struck by a swinging pendulum. It proves particularly valuable when assessing the toughness of materials with low impact resistance. 3. Tensile Testing: This method involves subjecting a wire rod to a gradually increasing tensile force until it fractures. By measuring the maximum applied force and the elongation at fracture, one can determine the steel's tensile strength and ductility. While not a direct measure of toughness, tensile testing provides crucial insights into the material's mechanical properties. 4. The Bend Test: In this test, a steel wire rod is bent to a specified angle and inspected for any signs of cracking or fracture. The ability of the material to endure bending without failure serves as an indicator of its toughness and ductility. 5. Hardness Testing: Hardness tests, such as the Rockwell or Brinell test, gauge a material's resistance to indentation. Although hardness does not directly measure toughness, it can offer indications of the material's strength and its ability to resist deformation. 6. Fracture Toughness Testing: This method involves measuring the critical stress intensity factor (KIC) or fracture toughness of a material. It provides valuable information about how the material will behave under stress, including its resistance to crack propagation. In summary, these toughness testing methods contribute to the evaluation of steel wire rods' performance and suitability for diverse applications, including construction, manufacturing, and engineering. The choice of testing method depends on the specific requirements and characteristics of the material under assessment.

Q:What are the different wire drawing processes used for steel wire rod?: The different wire drawing processes used for steel wire rod include cold drawing, hot drawing, and die drawing. Cold drawing involves pulling the wire rod through a series of dies to reduce its diameter and increase its length. Hot drawing involves heating the wire rod and then using a series of dies to reduce its diameter. Die drawing is a process where the wire rod is pulled through a single die to achieve the desired diameter and length.

Q:How is steel wire rod used in the manufacturing of wire for automotive exhaust systems?: Steel wire rod is used in the manufacturing of wire for automotive exhaust systems as it serves as the primary material for creating the wires that make up the exhaust system. The steel wire rod is carefully shaped, formed, and welded to create the necessary components such as hangers, brackets, and supports that keep the exhaust system in place. Its strength and durability make it an ideal choice for withstanding the high temperatures and vibrations associated with automotive exhaust systems.

Q:What are the different corrosion protection methods for steel wire rod?: Some of the different corrosion protection methods for steel wire rods include galvanization, coating with anti-corrosion paints or varnishes, applying rust inhibitors or corrosion inhibitors, using sacrificial anodes, and electroplating with a protective metal coating.

Q:What are the main factors influencing the choice of steel wire rod order payment method options?: The main factors influencing the choice of steel wire rod order payment method options include the financial stability and trustworthiness of the buyer and seller, the volume and frequency of orders, the level of risk involved, the availability of financing options, the buyer's creditworthiness, and any contractual obligations or industry standards.

Q:What are the standard bending requirements for steel wire rod?: The standard bending requirements for steel wire rod typically depend on the specific industry or application in which the wire rod is being used. However, there are certain general guidelines and specifications that are commonly followed. One of the key factors in determining the bending requirements is the diameter or gauge of the steel wire rod. Thicker wire rods generally require a larger bending radius compared to thinner ones. This is to ensure that the wire rod does not undergo excessive strain or deformation during the bending process. Another important consideration is the type of steel used in the wire rod. Different types of steel have varying levels of ductility and tensile strength, which can impact the bending requirements. It is crucial to adhere to the manufacturer's specifications and guidelines to ensure the wire rod is not subjected to excessive stress or damage during bending. In addition to these factors, industry standards and regulations may also dictate specific bending requirements for steel wire rods. For example, the American Society for Testing and Materials (ASTM) has established standards such as ASTM A510 which provides guidelines for the carbon steel wire rod used in various applications. Ultimately, the standard bending requirements for steel wire rod will depend on factors such as the diameter, type of steel, and industry standards. It is essential to consult relevant specifications and guidelines to ensure proper bending procedures are followed, thus maintaining the integrity and functionality of the wire rod.

Q:What are the different types of surface coatings available for steel wire rod?: Steel wire rods can be coated in several ways to achieve different objectives. These coatings serve various purposes, including protection against corrosion, enhancing appearance, and improving performance. Some common types of surface coatings for steel wire rods are as follows: 1. Zinc Coating: Steel wire rods are often protected from corrosion using zinc coatings. The most commonly used technique is hot-dip galvanizing, which involves immersing the wire rod in molten zinc. This coating offers excellent resistance to corrosion and can withstand harsh environmental conditions. 2. Phosphate Coating: Phosphate coatings are applied to steel wire rods to enhance their adhesion properties and provide a base for subsequent coatings or paints. These coatings improve the wire's corrosion resistance and its ability to bond with other materials. 3. Polymer Coating: Polymer coatings are used to create a protective barrier against corrosion and physical damage on steel wire rods. These coatings are particularly useful in applications where the wire needs to endure harsh conditions or have increased durability. Polymer coatings can be tailored to possess specific properties such as resistance to abrasion, chemicals, or UV rays. 4. Epoxy Coating: Epoxy coatings are commonly used to protect steel wire rods that will be exposed to corrosive environments. These coatings offer excellent resistance to chemicals, moisture, and abrasion. Industries such as marine, oil and gas, and automotive frequently employ epoxy coatings. 5. PVC Coating: Steel wire rods can be coated with PVC (Polyvinyl Chloride) to provide insulation and protection against corrosion. This type of coating is commonly used in electrical applications where the wire requires electrical insulation and protection from environmental factors. 6. Powder Coating: Powder coatings are applied to steel wire rods using electrostatically charged powder particles that adhere to the wire's surface. These coatings offer exceptional durability, corrosion resistance, and can be customized with different colors or finishes. Selecting the appropriate surface coating for steel wire rods is crucial, and it should be based on the specific requirements of the application and the environment in which the wire will be used. Each type of coating has its own advantages and limitations, so careful consideration must be given to choosing the most suitable coating for the intended purpose.

Q:How is steel wire rod used in the manufacturing of barbed wire?: Steel wire rod is a key component in the manufacturing process of barbed wire. It is used as the primary material to create the barbs and the twisted strands that make up the final product. The steel wire rod is first drawn into thinner wires, which are then twisted together to form the strands of the barbed wire. These strands are then further twisted together with sharp barbs attached at regular intervals to create the characteristic barbed wire structure. The strength and durability of steel wire rod make it an ideal material for barbed wire, as it can withstand the tension and pressure that the wire may be subjected to, while also providing the necessary sharpness and rigidity for effective fencing and security purposes. Overall, steel wire rod plays a crucial role in the manufacturing process of barbed wire, providing the necessary strength, durability, and functionality to the end product.

Q:What are the common packaging options for steel wire rod?: The common packaging options for steel wire rod typically include steel coils, wooden reels, and straight bundles.

Q:How is the dimensional accuracy of steel wire rod measured?: The dimensional accuracy of steel wire rod is typically measured using various techniques and tools to ensure that the dimensions of the rod meet the required specifications. Some commonly used methods to measure the dimensional accuracy of steel wire rod include: 1. Calipers: Calipers are used to measure the diameter of the steel wire rod. They can be either manual or digital, and they provide accurate readings by tightly gripping the rod and measuring its diameter. 2. Micrometers: Micrometers are precise measuring tools used to measure the diameter of the steel wire rod. They provide highly accurate readings by using a calibrated screw mechanism to measure the dimensions. 3. Optical measurement systems: Optical measurement systems use advanced technology, such as lasers or cameras, to measure the dimensions of the steel wire rod. These systems provide accurate and quick measurements by capturing multiple data points and analyzing them to determine the dimensional accuracy. 4. Ultrasonic measurement: Ultrasonic measurement techniques involve emitting ultrasonic waves into the steel wire rod and analyzing the reflected waves to determine its dimensions. This method is especially useful for measuring the thickness and cross-sectional dimensions of the rod. 5. Automated measurement systems: Automated measurement systems utilize specialized equipment and software to measure the dimensional accuracy of steel wire rods. These systems can provide accurate and repeatable measurements by employing robotics, sensors, and image processing algorithms. It is important to note that the specific measurement technique used may vary depending on the required dimensions, tolerances, and the capabilities of the manufacturer or testing facility.

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