Wire rod hot rolled 5.5mm-14mm SAE1006-1018B
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 25 m.t.
- Supply Capability:
- 10000000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
You Might Also Like
WIRE ROD Details:
| Minimum Order Quantity: | m.t. | Unit: | m.t. | Loading Port: | |
| Supply Ability: | m.t./month | Payment Terms: | TT OR LC |
Product Description:
Steel Grade: Q195 Standard: ASTM, GB
Diameter: 5.5mm, 6.5mm, 7mm,8mm,9mm,10mm,12mm,14mm
6.5mm can be drawing into 2mm/8.0mm can be drawing into 3mm
Type: Drawn Wire in Coil, each coil weight about 2MT
Brand Name: N-RIVER Place of Origin: Hebei, China
Chemical Composition:
Please kindly find our chemistry of our material based on Q195 as below for your information
Trademark | Rank | Chemical composition (quality score) % | |||||
C | Si | Mn | S | P | |||
| ≤ |
| ≤ | ≤ | |||
Q195 |
| 0.06-0.12 | 0.30 | 0.25 | 0.050 | 0.045 | |
Trademark | Rank | Pulling Test | |||||
Bend PointΔs/Mpa | Tensile Strength | Elongation Ratioδ5% | |||||
Thickness (Diameter) /MM | Thickness (Diameter) /MM | ||||||
≤16 | 16-40 | ≤16 | 16-40 | ||||
≥ | ≥ | ||||||
Q195 |
| 195 | 185 | 315-390 | 33 | 32 | |
Usage and Applications of Wire Rod Q195:
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
- Q:How are steel wire rods used in the production of brush wires?
- Brush wires are created using steel wire rods, which act as the main raw material for high-quality brush bristles. These wire rods, typically made from carbon steel, offer the strength and durability needed for brush wires. To begin the production process, the wire rods are fed into a wire drawing machine where they are pulled through dies to decrease their diameter. This step is repeated until the desired thickness is achieved. The wire is then cut into specific lengths for use as brush bristles. The mechanical properties of steel wire rods make them the preferred choice for brush wires. The carbon steel used in these rods has high tensile strength, enabling the brush bristles to withstand regular use without breaking or bending easily. Moreover, the steel wire rods provide flexibility, which is vital for creating brush bristles that can effectively clean hard-to-reach areas. After the wire drawing process, the brush wires can undergo additional treatments to enhance their performance. This may involve heat treatment to improve hardness and springiness or coating the wires with materials like nylon or brass to add functionality and durability. Once the brush wires are prepared, they can be incorporated into various types of brushes, including toothbrushes, industrial brushes, and paintbrushes. The use of steel wire rods in their production ensures that the resulting brush wires are strong, resilient, and capable of effectively performing their cleaning or scrubbing functions. In conclusion, steel wire rods play a vital role in brush wire production as they offer the necessary strength, durability, and flexibility required for brush bristles. Through a wire drawing process, these wire rods are transformed into brush bristles of the desired thickness. The use of steel wire rods ensures that the final brush wires can endure regular use and effectively clean different surfaces.
- 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 different sizes and dimensions of steel wire rod?
- Steel wire rods are available in a variety of sizes and dimensions to accommodate different industrial and commercial uses. The intended use and manufacturing standards typically determine the sizes and dimensions of steel wire rods. The diameter of steel wire rods can vary from as small as 0.1 millimeters (mm) to as large as 60 mm or more. Generally, the most common sizes in the market range between 5 mm and 20 mm in diameter. However, specialized applications may necessitate wire rods with larger or smaller diameters. The length of steel wire rods can vary significantly depending on the requirements. They are often produced in coils, which can range in length from a few meters to several kilometers. The length of wire rods can be customized to meet the customer's needs or industry standards. Regarding dimensions, steel wire rods are typically manufactured in a round shape. However, they can also be produced in other shapes such as square, rectangular, or hexagonal, depending on the specific application. The most prevalent shape is round because it provides excellent strength and flexibility for various uses. Furthermore, the weight of steel wire rods can vary based on the diameter and length. Usually, the weight is measured in kilograms (kg) or pounds (lb). The weight per unit length is determined by the specific gravity of the steel and the diameter of the wire rod. In conclusion, the sizes and dimensions of steel wire rods are extensive and can be customized to meet specific requirements. Whether it is for construction, automotive, or other industries, steel wire rods are available in a wide range of sizes to accommodate various applications.
- Q:What are the different hardness testing methods for steel wire rod?
- There are several different hardness testing methods that can be used to evaluate the hardness of steel wire rods. These methods include: 1. Rockwell Hardness Test: This is one of the most commonly used methods for hardness testing. It involves indenting the surface of the steel wire rod using a diamond cone or steel ball. The depth of the indentation is measured and correlated to a hardness value. 2. Brinell Hardness Test: This method also involves indenting the surface of the steel wire rod, but with a larger ball compared to the Rockwell test. The diameter of the indentation is measured and converted to a hardness value. 3. Vickers Hardness Test: This method uses a square-based diamond pyramid indenter to create an indentation on the surface of the steel wire rod. The size of the indentation is measured and the hardness value is calculated based on the applied load and the surface area of the indentation. 4. Knoop Hardness Test: This method is similar to the Vickers test, but it uses a rhombic-based diamond indenter instead. The length of the indentation is measured and the hardness value is calculated based on the applied load and the projected area of the indentation. 5. Microhardness Testing: This method involves using a microhardness tester to measure the hardness of the steel wire rod at a microscopic level. It is particularly useful for evaluating the hardness of different regions within the wire rod or for evaluating smaller samples. These different hardness testing methods provide valuable information about the mechanical properties of steel wire rods, allowing manufacturers to ensure that the rods meet the required hardness specifications for their intended applications.
- Q:How is steel wire rod used in the manufacturing of wire forms for signage?
- Steel wire rod is an essential component in the manufacturing process of wire forms for signage. The wire rod acts as the raw material from which wire forms are shaped and designed. Firstly, the steel wire rod is carefully selected based on its specific mechanical and chemical properties, such as tensile strength and corrosion resistance. These properties ensure that the wire forms produced using the rod will be durable and able to withstand various weather conditions. Next, the steel wire rod is processed through a series of manufacturing steps. The rod is typically drawn through a series of dies to reduce its diameter and increase its length. This process, known as wire drawing, allows for the production of wires with precise dimensions and smooth surfaces. Once the wire has been drawn to the desired thickness, it is then further processed to create specific shapes and forms required for signage. This can involve bending, coiling, or welding the wire into different configurations, depending on the design specifications. The wire forms created from steel wire rod are then utilized in the manufacturing of signage. These wire forms are commonly used as a structural framework or support for various types of signage, such as letters, logos, or decorative elements. The wire forms provide the necessary stability and rigidity to hold the signage in place, ensuring that it remains intact and visible. Moreover, the versatility of steel wire rod allows for the creation of intricate and complex wire forms, which can be customized to meet specific design requirements. This flexibility in design allows for the production of unique and eye-catching signage, enhancing visual appeal and brand recognition. In conclusion, steel wire rod plays a critical role in the manufacturing of wire forms for signage. It serves as the raw material from which wire forms are shaped, providing the necessary strength and durability required for signage applications. The ability to customize wire forms allows for the creation of visually appealing and distinctive signage, making steel wire rod an essential component in the signage industry.
- Q:How is steel wire rod used in the manufacturing of staples?
- Steel wire rods are an essential component in the manufacturing of staples. These wire rods are typically made from high-quality steel and are available in various diameters. The process of manufacturing staples begins with the steel wire rods being coiled and then drawn through a series of dies to reduce their diameter and increase their length. This drawing process not only enhances the strength of the wire but also ensures its uniformity. Once the desired wire diameter is achieved, the steel wire is cut into smaller lengths, which will determine the size of the staples being produced. These wire lengths are then fed into a specialized staple manufacturing machine, where they undergo a series of operations. Firstly, the wire is fed into a machine that straightens and cleans it to remove any impurities or irregularities. The straightened wire is then cut and shaped into individual staple blanks. These blanks are further processed using a combination of bending, cutting, and shaping operations to form the distinctive "U" shape of the staple legs. Next, the legs of the staples are clinched or bent inwards to create the necessary tension for them to hold papers or other materials together. This process is typically performed using a clinching machine, which applies the necessary force to bend the legs inward, creating the final staple shape. Finally, the manufactured staples undergo a quality control check to ensure that they meet the required standards in terms of dimensions, strength, and overall quality. This may involve checking for proper leg length, uniformity of shape, and testing the staples' ability to hold materials securely. In summary, steel wire rods play a crucial role in the manufacturing of staples by providing the high-strength material necessary for securely holding papers or other materials together. Through a series of processes, the wire rods are transformed into the distinctive "U" shape of staples, ensuring their functionality and reliability for various applications.
- Q:What is the annealing process for steel wire rod?
- The annealing process for steel wire rod involves heating the material to a specific temperature and then slowly cooling it down to enhance its ductility, eliminate internal stresses, and improve its mechanical properties. This process helps in reducing brittleness, improving workability, and achieving the desired hardness and strength levels for the steel wire rod.
- Q:How is steel wire rod measured and classified?
- Steel wire rod is typically measured and classified based on its diameter, which is usually expressed in millimeters or inches. The classification is determined by the specific standards set by the industry, which takes into account the wire rod's chemical composition, tensile strength, and other mechanical properties. This ensures that the wire rod is suitable for its intended applications, such as in manufacturing various steel products or for construction purposes.
- Q:What are the different types of steel wire rod surface treatment methods?
- Various industries commonly use several different methods to treat the surface of steel wire rods. These methods aim to improve the wire rods' properties, durability, and longevity. Some of the most frequently used surface treatment methods for steel wire rods include: 1. Pickling: In this method, the steel wire rods are immersed in an acid solution, usually hydrochloric or sulfuric acid. This process eliminates scale, rust, and other impurities from the surface, enhancing the wire rods' appearance and cleanliness. 2. Coating: Another popular surface treatment method is applying a protective layer to the steel wire rods. This can be achieved through processes like galvanizing, which coats the wire rods with a layer of zinc to prevent corrosion and increase resistance to wear and tear. Other coating methods include epoxy, polymer, or ceramic coatings, offering additional protection against environmental factors. 3. Heat treatment: Heat treatment involves subjecting the steel wire rods to controlled heating and cooling cycles to modify their microstructure and enhance mechanical properties. This treatment method includes processes like annealing, normalizing, or quenching and tempering, which improve the wire rods' strength, hardness, and ductility. 4. Surface passivation: Passivation is a chemical process that eliminates free iron and other contaminants from the surface of the steel wire rods. This method promotes the formation of a passive oxide layer, acting as a protective barrier against corrosion. 5. Shot peening: Shot peening is a mechanical surface treatment method where small spherical particles, known as shot, are bombarded onto the steel wire rods at high velocities. This process induces compressive stresses in the surface layer of the wire rods, enhancing their fatigue strength and resistance to stress corrosion cracking. In conclusion, these various surface treatment methods for steel wire rods are essential for improving their performance, durability, and resistance to environmental factors. The choice of treatment method depends on the specific requirements of the industry and the intended application of the wire rods.
- Q:What is the current global production capacity of steel wire rod?
- The current global production capacity of steel wire rod is approximately X million metric tons per year.
1. Manufacturer Overview |
|
|---|---|
| Location | |
| Year Established | |
| Annual Output Value | |
| Main Markets | |
| Company Certifications | |
2. Manufacturer Certificates |
|
|---|---|
| a) Certification Name | |
| Range | |
| Reference | |
| Validity Period | |
3. Manufacturer Capability |
|
|---|---|
| a)Trade Capacity | |
| Nearest Port | |
| Export Percentage | |
| No.of Employees in Trade Department | |
| Language Spoken: | |
| b)Factory Information | |
| Factory Size: | |
| No. of Production Lines | |
| Contract Manufacturing | |
| Product Price Range | |
Send your message to us
Wire rod hot rolled 5.5mm-14mm SAE1006-1018B
- Ref Price:
-
- Loading Port:
- Tianjin
- Payment Terms:
- TT OR LC
- Min Order Qty:
- 25 m.t.
- Supply Capability:
- 10000000 m.t./month
OKorder Service Pledge
Quality Product, Order Online Tracking, Timely Delivery
OKorder Financial Service
Credit Rating, Credit Services, Credit Purchasing
Similar products
New products
Hot products
Hot Searches
Related keywords
