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 factors that affect the strength of steel wire rod?: There are several factors that can affect the strength of steel wire rods. Firstly, the composition of the steel plays a significant role. The presence of specific elements such as carbon, manganese, and silicon can enhance the strength of the steel wire rod. Higher carbon content generally leads to greater strength. Secondly, the manufacturing process and the level of heat treatment also influence the strength. Steel wire rods that undergo proper heat treatment, such as quenching and tempering, tend to have higher strength compared to those with inadequate heat treatment. The cooling rate during quenching and the subsequent tempering temperature can greatly affect the final strength of the wire rod. Furthermore, the diameter or thickness of the steel wire rod affects its strength. Thinner rods generally have higher tensile strength compared to thicker ones, as the smaller cross-sectional area allows for greater strength per unit of area. Additionally, the presence of impurities and defects in the steel can weaken the wire rod. Inclusions, such as non-metallic particles, can act as stress concentrators and reduce the strength of the wire rod. Similarly, defects like cracks or voids can serve as initiation points for failure under stress. Lastly, external factors such as the environment and the level of stress the wire rod is subjected to can also impact its strength. Exposure to corrosive substances or high temperatures can cause the steel wire rod to degrade, leading to reduced strength. Additionally, the level of stress applied to the wire rod, either during manufacturing or in its application, can affect its strength and durability. In summary, the strength of steel wire rods is influenced by factors such as the composition of the steel, the manufacturing process, heat treatment, diameter, presence of impurities and defects, as well as external conditions and stress levels.

Q: How does the thermal conductivity of steel wire rod vary with different heat treatment processes?: Different heat treatment processes can significantly affect the thermal conductivity of steel wire rod. Heat treatment is a method used to modify the physical and mechanical properties of steel, including its thermal conductivity. One commonly used heat treatment process is annealing. This process involves heating the steel wire rod to a specific temperature and then slowly cooling it. Annealing helps to alleviate internal stresses and enhance the steel's ductility and toughness. In terms of thermal conductivity, annealing can enhance it by reducing impurities and improving the crystal structure of the steel. As a result, there is improved heat transfer efficiency, leading to higher thermal conductivity. In contrast, quenching is a heat treatment process that rapidly cools the steel wire rod after heating it to a high temperature. This process is typically employed to increase the hardness and strength of the steel. However, quenching can also result in a decrease in thermal conductivity. The rapid cooling causes the formation of a fine-grained microstructure, which can hinder heat movement through the material. Another heat treatment process that affects the thermal conductivity of steel wire rod is tempering. Tempering is conducted after quenching and involves reheating the steel to a lower temperature before cooling it again. This process helps to reduce brittleness and improve toughness. Regarding thermal conductivity, the effect of tempering can vary depending on the specific temperature and duration of the process. Generally, tempering can slightly decrease the thermal conductivity of steel wire rod by promoting the formation of small carbide particles, which act as thermal barriers. Overall, the thermal conductivity of steel wire rod can be influenced by different heat treatment processes. Annealing typically increases thermal conductivity, while quenching and tempering may potentially decrease it. The specific parameters of the heat treatment, such as temperature, cooling rate, and duration, play a crucial role in determining the resulting thermal conductivity of the steel.

Q: What are the main challenges in the steel wire rod industry?: The steel wire rod industry faces several main challenges that impact its operations and growth. Firstly, one of the primary challenges is the volatility of raw material prices. Steel wire rod production heavily depends on the availability and cost of inputs such as iron ore and coal. Fluctuations in these prices can significantly impact the profitability of the industry, making it difficult for companies to plan and forecast their production costs. Secondly, the industry has to contend with intense competition, both domestically and internationally. Many countries have a well-established steel wire rod industry, leading to oversupply and price wars. This competition puts pressure on manufacturers to continuously improve their production efficiency and reduce costs to remain competitive. Thirdly, environmental regulations and sustainability concerns pose another significant challenge. Steel wire rod production involves energy-intensive processes and can result in the emission of greenhouse gases and other pollutants. Regulatory requirements to reduce emissions and adopt more sustainable practices can add additional costs to the industry, requiring companies to invest in new technologies and equipment. Moreover, the steel wire rod industry faces the challenge of meeting changing customer demands and preferences. Customers now demand higher quality and customized steel wire rods that meet specific technical requirements. Manufacturers need to invest in research and development to develop new products and processes that can meet these evolving customer needs. Furthermore, the industry faces logistical challenges due to its heavy and bulky nature. Transportation costs can be high, especially for long-distance shipments, impacting the competitiveness of manufacturers. Additionally, the industry relies on a complex supply chain, and any disruptions or delays in the delivery of raw materials or finished products can have significant consequences for production schedules and customer satisfaction. Lastly, the steel wire rod industry is also susceptible to economic cycles and global economic conditions. A slowdown in construction and infrastructure projects, which are major consumers of steel wire rods, can lead to reduced demand and excess inventory. Economic downturns or trade disputes can also impact the industry's growth prospects and profitability. In conclusion, the steel wire rod industry faces various challenges, including volatile raw material prices, intense competition, environmental regulations, changing customer demands, logistical challenges, and economic fluctuations. Overcoming these challenges requires companies to continuously innovate, improve efficiency, and adapt to changing market conditions.

Q: What are the different types of wire ropes made from steel wire rod?: Steel wire rod can be used to create various types of wire ropes, each with its own purpose and function. Some commonly used types include: 1. Galvanized Wire Ropes: To protect against corrosion in outdoor and marine settings, these wire ropes are coated with zinc using a process called galvanization. 2. Stainless Steel Wire Ropes: These wire ropes are made from high-quality stainless steel, providing exceptional corrosion resistance even in harsh conditions. They are popular in industries like marine, food processing, and pharmaceuticals. 3. Bright Wire Ropes: Also known as ungalvanized wire ropes, these ropes are made from plain steel wire rods without any protective coating. They are typically used in static applications where corrosion resistance is not a concern. 4. Plastic Coated Wire Ropes: For added protection against corrosion and abrasion, these wire ropes have a layer of plastic coating applied over the steel core. They are commonly used in applications like gym equipment and hoisting cables. 5. Compacted Wire Ropes: By compacting the strands, these wire ropes have reduced gaps between them, resulting in increased strength and durability. They are frequently used for heavy lifting operations and crane applications. 6. Rotation Resistant Wire Ropes: Designed to minimize twisting and rotation under heavy loads, these wire ropes have special strand and core configurations. They are ideal for applications like suspension bridges and tower cranes that require precise control and stability. 7. Wire Ropes with Fiber Core: These wire ropes have a core made of natural or synthetic fibers like sisal or polypropylene. The fiber core provides flexibility and cushioning, making them suitable for applications that require shock absorption, such as elevators and ski lifts. Choosing the right wire rope depends on various factors like the environment, load requirements, and intended application since each type has its own unique properties and advantages.

Q: What are the main factors affecting the energy efficiency of steel wire rod production?: The main factors affecting the energy efficiency of steel wire rod production include the type and quality of raw materials used, the efficiency of the production process, the technology and equipment utilized, the management practices implemented, and the level of energy conservation measures in place. Additionally, factors such as the design and maintenance of the production facilities, the skill and training of the workforce, and the overall energy management strategy of the company also play a significant role in determining the energy efficiency of steel wire rod production.

Q: What are the different types of surface finishes available for steel wire rod?: Steel wire rod has several options for surface finishes, each with its own purpose and characteristics. These finishes are applied during manufacturing to enhance properties and performance. The most common surface finish for steel wire rod is the bright finish. This involves a mechanical process that removes scale and oxide layers, resulting in a smooth and shiny appearance. Bright finish is used when high corrosion resistance is needed. Another option is the black finish, also known as hot-rolled or pickled finish. This is achieved by allowing the wire rod to cool naturally after rolling, resulting in a dark, rough, and scaly appearance due to oxide layers. Black finish is commonly used for low-cost applications where corrosion resistance is not a major concern. For excellent corrosion resistance, the galvanized finish is applied. This involves coating the wire rod with a layer of zinc through hot-dip galvanizing or electroplating. It creates a shiny and protective layer on the surface, making it suitable for outdoor applications or environments with high humidity or exposure to chemicals. Phosphate finish is achieved through a chemical process called phosphating. This creates a thin phosphate coating on the surface, improving lubricant or paint adhesion and enhancing corrosion resistance. Phosphate finish is commonly used in applications requiring lubrication, such as automotive or industrial machinery. Alternatively, steel wire rod can be coated with materials like polymer or enamel to provide additional protection and improve specific properties. Coated finishes offer benefits such as increased corrosion resistance, improved electrical conductivity, or enhanced aesthetics. They are commonly used in fencing, electrical wiring, or decorative applications. In conclusion, steel wire rod can have bright, black, galvanized, phosphate, or coated finishes. Each finish serves a specific purpose and provides unique characteristics, allowing the wire rod to meet various performance requirements in different applications.

Q: What are the different types of tests performed on steel wire rod?: There are several types of tests performed on steel wire rods, including chemical composition analysis, mechanical testing, surface inspection, and dimensional checks.

Q: Can steel wire rod be used for cold drawing applications?: Yes, steel wire rod can be used for cold drawing applications. Cold drawing is a process in which a metal rod, such as steel wire rod, is pulled through a die to reduce its diameter and increase its length. This process helps to improve the mechanical properties and surface finish of the wire rod. Steel wire rods are commonly used in cold drawing applications due to their excellent strength and ductility. The high tensile strength of steel allows it to withstand the forces applied during the cold drawing process without breaking or deforming. Additionally, the ductility of steel enables it to be easily elongated without fracturing, making it an ideal material for cold drawing. During the cold drawing process, the steel wire rod is first cleaned and lubricated to reduce friction and prevent surface damage. It is then pulled through a series of dies, which progressively reduce the diameter of the rod. This results in a wire with a smaller diameter and increased length. The cold drawing process provides several benefits to the steel wire rod. It improves the mechanical properties of the wire, such as increasing its tensile strength and hardness. It also enhances the surface finish of the wire, making it smoother and more uniform. Additionally, cold drawing can improve the dimensional accuracy and tolerance of the wire. Steel wire rods are widely used in various industries for cold drawing applications. They are commonly used to produce high-quality wires for applications such as cables, springs, fasteners, and reinforcement materials. The cold drawing process allows manufacturers to customize the diameter, length, and properties of the wire according to their specific requirements. In conclusion, steel wire rod can be successfully used for cold drawing applications. The combination of its high strength and ductility makes it an ideal material for the cold drawing process, resulting in wires with improved mechanical properties and surface finish.

Q: How is steel wire rod used in the manufacturing of wire rope assemblies for mining applications?: Steel wire rod is an essential component in the manufacturing of wire rope assemblies for mining applications. It serves as the raw material for producing individual wires that are then twisted together to form the wire rope. The high strength and durability of steel wire rod make it ideal for withstanding the heavy loads and harsh conditions encountered in mining operations. By using steel wire rod, wire rope assemblies can provide the necessary strength, flexibility, and reliability required for safe and efficient mining activities.

Q: What are the different machinability testing methods for steel wire rod?: There are several machinability testing methods available for steel wire rod. Some of the common methods used in industry include: 1. Turning Test: This method involves machining the steel wire rod using a lathe or turning machine. The cutting parameters such as cutting speed, feed rate, and depth of cut are varied to evaluate the machinability of the material. The tool wear, surface finish, and chip formation are observed and analyzed to assess the machinability characteristics. 2. Drilling Test: In this method, a drilling machine is used to create holes in the steel wire rod. The drilling parameters such as cutting speed, feed rate, and drill geometry are adjusted to determine the machinability. The hole quality, chip formation, and tool wear are examined to evaluate the performance of the material during drilling. 3. Tapping Test: Tapping is a common machining operation performed on steel wire rods to create threaded holes. In this test, the steel wire rod is tapped using a tapping tool. The torque required, tool life, and thread quality are assessed to determine the machinability of the material. 4. Grinding Test: Grinding is a precision machining process used to remove material from the steel wire rod. In this test, the steel wire rod is ground using a grinding wheel or abrasive belt. The grinding parameters such as grinding speed, feed rate, and grinding wheel specification are adjusted to evaluate the machinability. The surface roughness, material removal rate, and grinding wheel wear are analyzed to assess the performance of the material during grinding. 5. Hardness Test: Machinability can also be indirectly assessed by measuring the hardness of the steel wire rod. Hardness is an important mechanical property that affects the machinability of a material. Various hardness testing methods like Rockwell, Brinell, or Vickers hardness tests can be performed to determine the hardness of the steel wire rod. Higher hardness values indicate lower machinability, while lower hardness values suggest better machinability. These testing methods help manufacturers and engineers to select the most suitable machining parameters and tools for processing steel wire rods. By understanding the machinability characteristics, they can optimize the machining operations and improve productivity while minimizing tool wear and material waste.

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