Steel Wire Rod Hot Rolled SAE1008 SAE1006 SAE1018

Steel Wire Rod Hot Rolled SAE1008 SAE1006 SAE1018 System 1

Steel Wire Rod Hot Rolled SAE1008 SAE1006 SAE1018 System 2

Steel Wire Rod Hot Rolled SAE1008 SAE1006 SAE1018 System 3

Steel Wire Rod Hot Rolled SAE1008 SAE1006 SAE1018

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 500 m.t.

Supply Capability:: 30000 m.t./month

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Product Description:

Specifications of Wire Rod SAE1008B:

Steel Grade: SAE1008B Standard: ASTM, GB

Diameter: 5.5mm, 6.5mm, 7mm,8mm,9mm,10mm,12mm,14mm

Type: Drawn Wire Alloy or Not: Alloy Brand Name: N-RIVER

Technique: Hot Rolled Place of Origin: China Mainland

Chemical Composition:

Please kindly find our chemistry of our material based on SAE1008B as below for your information

Grade	Chemical Composition (%)
	C	Mn	S	P	Si	B
SAE1008B	0.10max	0.32max	0.045max	0.040max	0.30max	0.0008min
	Mechanical properties
	Yield strength(N/mm2)		Tensile strength(N/mm2)		Elongation (%)
	≥195		350-380		≥32

Usage and Applications of Wire Rod SAE1008B:

After hot-rolled the products shaped into coil and delivery as finished product, including round, square, rectangular, hexagonal and so on. Since most of the products are round, it is generally called wire rod. Carbon steel wire rod is widely used in construction and manufacturing. Carbon steel wire rod is mainly used for reinforcement of reinforced concrete and welded structure or reprocessed (roberts , nail, etc.) materials, especially used to produce wire drawing, welding electrode, nails, spring, electronic, precise machinery parts and so on.

Usage and Applications of Hot Rolled Wire Rod:

Packaging & Delivery of Hot Rolled Wire Rod:

Packaging Detail: products are packed in coil, each coil weight around 2 MT, and then shipped by container or bulk vessel

Delivery Detail: within 45 days after received deposit or LC.

Label: to be specified by customer, generally, each bundle has 1-2 labels

Trade terms: FOB, CFR, CIF

Note:

1. Our products are produced according to national standard (GB), if not, supply according to national standards (GB) or agreement as customer required.

2. Other Grade and Standard carbon steel wire rod we can supply:

Grade:H08A, 30MnSi, 62B-82B

Standard: AISI, BS, JIS, DIN

The Minimum Order Quantity of these products is high, and need to be confirmed.

3. We can not only supply carbon steel wire rod; if you need anything about building materials, please contact us.

4. Please send us your detail specifications when inquire. We will reply to you as soon as possible.We sincerely hope we can establish a long stable business relationship.

Q:How is the brittleness of steel wire rod determined?: The brittleness of steel wire rod can be assessed using various methods and tests. One commonly utilized test is the Charpy impact test, which measures the amount of energy needed to fracture a notched sample of the wire rod. This test aids in determining the material's ability to withstand sudden impacts or shocks. Another method involves conducting a tensile test to evaluate the wire rod's resistance to stretching or pulling forces until it breaks. This test involves subjecting the wire rod to gradually increasing loads until it fractures, allowing for the determination of its ultimate tensile strength and elongation. Furthermore, hardness tests such as the Rockwell or Vickers hardness tests are performed to gauge the wire rod's capacity to resist indentation or penetration by a standardized indenter. A higher hardness value suggests higher resistance to deformation and potentially lower brittleness. Moreover, microstructural analysis techniques like optical microscopy or scanning electron microscopy (SEM) can be employed to examine the internal structure of the wire rod. The presence of certain microstructural features, such as large grain boundaries or impurities, can indicate increased brittleness. In conclusion, a combination of mechanical tests, hardness measurements, and microstructural analysis allows for the assessment of the brittleness of steel wire rod, enabling manufacturers to determine its suitability for specific applications.

Q:What are the different surface defects that can affect the electrical conductivity of steel wire rod?: There are several surface defects that can affect the electrical conductivity of steel wire rod. These include scale, rust, pits, scratches, and coatings. Scale refers to the oxide layer that forms on the surface of the wire rod during the manufacturing process. Rust occurs when the rod is exposed to moisture and oxygen, leading to the formation of iron oxides. Pits are small indentations on the surface of the rod caused by corrosion or mechanical damage. Scratches can occur during handling or transportation, creating irregularities on the surface. Coatings such as paint or grease can also hinder electrical conductivity by acting as insulators.

Q:What are the common mechanical properties of steel wire rod?: Steel wire rod possesses various mechanical properties, such as tensile strength, yield strength, elongation, and hardness. Tensile strength denotes the maximum stress a material can endure before breaking or failing. Typically, steel wire rod exhibits high tensile strength, rendering it ideal for applications necessitating robust and long-lasting materials. Conversely, yield strength indicates the stress at which a material permanently deforms. This property is crucial for applications involving repeated loads or stress cycles. Steel wire rod often demonstrates high yield strength, enabling it to resist deformation under heavy loads. Elongation quantifies a material's ability to stretch or deform before breaking. Steel wire rod commonly showcases moderate to high elongation, making it suitable for flexible applications that require resistance to deformation without fracturing. Hardness measures a material's resistance to indentation or scratching. The specific alloy and heat treatment determine the hardness of steel wire rod, which can vary. Higher hardness values enhance resistance to wear and abrasion, making steel wire rod suitable for applications demanding durability and resistance to surface damage. In conclusion, the versatile mechanical properties of steel wire rod render it suitable for a wide array of applications across industries such as construction, automotive, manufacturing, and telecommunications.

Q:How is steel wire rod recycled or disposed of?: Steel wire rod can be recycled through a process called steel melting, where it is melted down and transformed into new steel products. Alternatively, if the wire rod is no longer suitable for recycling, it can be disposed of in landfills or sent to scrap metal yards for proper disposal.

Q:What are the international standards for steel wire rod?: The international standards for steel wire rod include specifications for chemical composition, mechanical properties, dimensions, and tolerances. These standards are set by organizations such as the International Organization for Standardization (ISO) and the American Society for Testing and Materials (ASTM). They ensure that steel wire rods meet certain quality and performance requirements, allowing for consistent and reliable use in various industries worldwide.

Q:How is steel wire rod used in the manufacturing of fencing?: Steel wire rod is commonly used in the manufacturing of fencing as it serves as the primary material for creating the wire mesh used in fencing panels. The wire rod is first drawn through various dies to obtain the desired thickness and shape, and then it is galvanized or coated to enhance its durability and resistance to corrosion. The resulting wire mesh is then woven or welded together to form the structure of the fence, providing strength, security, and longevity to the overall fencing system.

Q:What are the different types of steel wire rod finishes for improved paint adhesion?: There are several types of steel wire rod finishes that can be used to enhance paint adhesion. Some common finishes include phosphate coatings, zinc coatings, and polymer coatings. These finishes create a rough surface texture that allows the paint to adhere more effectively to the wire rod, providing better durability and corrosion resistance.

Q:How is steel wire rod recycled in a steel production facility?: Several steps are involved in the recycling process of steel wire rods to ensure efficient and sustainable reuse of this material in a steel production facility. Here is a breakdown of how the recycling process of steel wire rods takes place: 1. Collection and Sorting: Steel wire rods are collected from various sources, such as scrap yards, demolition sites, or manufacturing plants, and sorted based on their quality and composition. This sorting process allows for better control over the recycling process and ensures that only suitable materials are used. 2. Shredding and Fragmentation: Once sorted, the steel wire rods are shredded using heavy-duty machines, breaking them down into smaller pieces. This fragmentation increases the surface area of the material, making it easier to handle in subsequent steps. 3. Magnetic Separation: After shredding, powerful magnets are used to extract any ferrous materials, such as iron and steel, from the fragmented steel wire rods. This process effectively removes impurities and contaminants, leaving behind clean steel wire rods. 4. Melting and Purification: The clean steel wire rods are melted in a furnace at extremely high temperatures, turning the solid fragments into molten steel. Various additives and chemicals can be introduced during the melting process to refine the steel's composition and properties. 5. Casting and Solidification: The molten steel is then cast into molds to form new steel products or billets. These molds can be customized based on the desired shape and size of the final product. The molten steel is poured into the molds and left to cool and solidify. 6. Rolling and Drawing: After solidification, the steel billets go through rolling mills that progressively reduce their size and shape them into the desired final product, such as wire rods, bars, or sheets. If necessary, the steel may also undergo a drawing process, where it is pulled through a series of dies to achieve the desired diameter and shape. 7. Quality Control and Finishing: Before the final product is ready, it undergoes rigorous quality control inspections to ensure it meets the required specifications and standards. Any defects or imperfections are identified and corrected. Once approved, the steel wire rods are typically cleaned, coated, or treated to enhance their durability, corrosion resistance, or other desired properties. In summary, the recycling process of steel wire rods in a steel production facility involves collection, sorting, shredding, magnetic separation, melting, casting, rolling, quality control, and finishing. This comprehensive process effectively recycles steel wire rods, reducing the need for virgin materials and promoting sustainability within the steel industry.

Q:How is steel wire rod used in the manufacturing of wire for industrial sieves?: Steel wire rod is used in the manufacturing of wire for industrial sieves as it serves as the raw material for producing the wire. The steel wire rod is first processed through various manufacturing techniques such as drawing, annealing, and galvanizing to transform it into wire. This wire is then woven or welded to create the mesh structure of the industrial sieve, which is vital for separating and filtering materials in various industries such as mining, agriculture, and construction.

Q:What are the different surface cleaning methods for steel wire rod?: Steel wire rods can be cleaned using various methods to eliminate impurities and enhance their quality. Some of these methods include mechanical cleaning, chemical cleaning, electrochemical cleaning, ultrasonic cleaning, and steam cleaning. Mechanical cleaning involves using mechanical abrasion, such as wire brushing, sanding, or shot blasting, to eliminate surface impurities like rust or loose particles. Chemical cleaning, on the other hand, utilizes chemicals to dissolve or react with contaminants. Acid pickling is commonly used to remove oxide layers or scale, while alkaline cleaning can eliminate organic impurities. Electrochemical cleaning employs an electrical current, electrolyte solution, and electrochemical pickling or electrocleaning processes to dissolve or dislodge impurities. It is particularly suitable for stainless steel wire rods to maintain their corrosion resistance. Ultrasonic cleaning relies on high-frequency sound waves to create microscopic bubbles that implode on the wire rod's surface, effectively removing contaminants like oils or greases. Steam cleaning employs high-pressure steam to dislodge and eliminate contaminants, making it useful for heavily contaminated wire rods. It is important to consider factors such as the type and severity of contamination, desired cleanliness level, and specific end application requirements when selecting a cleaning method for steel wire rods. Each method has its own advantages and limitations, so choosing the most appropriate one is vital to ensure the highest quality and performance of the wire rod.

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