• Steel U Channel With High Tensile Strength System 1
  • Steel U Channel With High Tensile Strength System 2
Steel U Channel With High Tensile Strength

Steel U Channel With High Tensile Strength

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Loading Port:
China main port
Payment Terms:
TT or LC
Min Order Qty:
50 m.t.
Supply Capability:
50000 m.t./month

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Description

In the production of steel products, steel is molded and reshaped with different machinery at different temperatures.  One process is steel rolling, which involves metal stock passing through a pair of rolls.  Rolling produces flat steel sheets of a specific thickness, and the process is classified according to the temperature at which the metal is rolled.  If the temperature of the metal is above its recrystallization temperature, or the temperature at which the grain structure of the metal can be altered, then the process is termed as hot rolling.  If the temperature of the metal is below its recrystallization temperature, the process is termed as cold rolling.

Like cold rolling, cold drawing is performed at room temperature, but instead of producing a flat object like a coke can, cold drawing makes steel into the form of a wire like the spokes of a wheel or a paper clip.  To start the process, Steel is usual hammered and rolled so that it can be fit through a die; a tool that turns the steel mass into a wire.  The room temperature steel is pulled through the die which reshapes it into a thinner shape while maintaining the same volume.  It is similar to the idea of syrup flowing out of a bottle through a tube in that it changes shape but not volume, but instead of squeezing the metal, it is pulled out.  In order to get the wire down to the right diameter, it usually requires more than one pass through different dies.

 

Chemical Compostion

 

  Grade

                                        Element(%)

          C

         Mn

           P

           S

  SS330

          --

          --

      ≦0.050

     ≦0.050

  SS400

  SS490

  SS540

       ≦0.30

      ≦1.60

      ≦0.040

     ≦0.040

 

Usage/Applications

Channel Steel is usually used for building structure, vehicle manufacturing and other industrial structure and often used with i beam.

In details,  the channel steel belongs to carbon structural steel which is applied to in the field of construction and machinery. The channel steel  is usually used for arch-itechtural structure, and they could be welded in order to support or hang a vari-ety of facilities. They are also usually used in combination with I beam. Generally,the channel steel must possess perfect welding property, riveting property and mechanical property and so on.

 

FAQ:

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A1: All products offered byOKorder.com are carefully selected from China's most reliable manufacturing enterprises. Through its ISO certifications, OKorder.com adheres to the highest standards and a commitment to supply chain safety and customer satisfaction.

Q2: How do we guarantee the quality of our products?

A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.

Q4: What makes stainless steel stainless?

A4: Stainless steel must contain at least 10.5 % chromium. It is this element that reacts with the oxygen in the air to form a complex chrome-oxide surface layer that is invisible but strong enough to prevent further oxygen from "staining" (rusting) the surface. Higher levels of chromium and the addition of other alloying elements such as nickel and molybdenum enhance this surface layer and improve the corrosion resistance of the stainless material.

Q:Are steel channels suitable for load-bearing applications?
Yes, steel channels are suitable for load-bearing applications. Steel channels are designed to provide structural support and are commonly used in construction and engineering projects. They offer high strength and durability, making them ideal for withstanding heavy loads and distributing weight effectively. Steel channels can be used in various load-bearing applications such as beams, columns, frames, and supports. Additionally, they are versatile and can be easily customized to meet specific load requirements. Overall, steel channels are a reliable and popular choice for load-bearing applications due to their strength, durability, and versatility.
Q:What are the guidelines for steel channel installation in corrosive environments?
To ensure the longevity and effectiveness of steel channels in corrosive environments, it is crucial to adhere to several essential guidelines: 1. Material selection: Opt for a steel material specifically engineered to withstand corrosive environments. Stainless steel is often an ideal choice due to its high corrosion resistance. Additionally, carefully consider the grade of stainless steel that best suits the specific corrosive substances present in the environment. 2. Surface preparation: Thoroughly prepare the surface of the steel channels before installation. This entails removing any existing rust or corrosion, meticulously cleaning the surface, and applying a protective coating or treatment to enhance corrosion resistance. 3. Protective coatings: Apply appropriate protective coatings to the steel channels to prevent corrosion. This may involve using paints, epoxy coatings, or galvanizing. Ensure that the chosen coating is compatible with the corrosive environment and offers long-term protection. 4. Proper drainage: Design the installation in a manner that facilitates proper drainage of any corrosive substances that may come into contact with the steel channels. This helps minimize the accumulation of corrosive agents and reduces the risk of corrosion. 5. Avoid contact with dissimilar metals: Steer clear of direct contact between the steel channels and dissimilar metals, as this can trigger galvanic corrosion. If contact cannot be avoided, employ suitable insulating materials or coatings to separate the metals and prevent galvanic corrosion. 6. Regular maintenance: Conduct regular inspections and maintenance on the steel channels to identify any signs of corrosion or damage. Promptly address any issues to prevent further deterioration and ensure the continued effectiveness of the installation. 7. Follow industry standards and recommendations: Familiarize yourself with pertinent industry standards, guidelines, and recommendations for installing steel channels in corrosive environments. These resources provide valuable insights into best practices and ensure compliance with safety and performance requirements. It is crucial to seek guidance from corrosion control specialists or engineers who specialize in this field. Their expertise will ensure that the guidelines are tailored to the specific corrosive environment and intended application of the steel channels.
Q:How do steel channels perform in acoustic applications?
Due to their structural properties, steel channels are effective in acoustic applications. The rigidity and strength of steel make it an ideal material for sound barriers and vibration minimization. Constructing walls, partitions, or ceilings with steel channels can help isolate sound and prevent transmission. The dense nature of steel aids in absorbing and dampening sound waves, reducing intensity and preventing reverberation. This is particularly advantageous in noise-sensitive environments like recording studios, theaters, or conference rooms. Additionally, steel channels can be combined with soundproofing materials or insulation to improve their acoustic performance. Adding layers of foam, fiberglass, or acoustic panels to the steel channels further reduces sound transmission and enhances overall acoustic quality. Furthermore, steel channels provide stability and durability, ensuring the integrity of acoustic structures over time. They can withstand heavy loads and offer fire resistance, making them a reliable choice for acoustic applications. However, it is important to note that steel channels alone may not be sufficient for soundproofing in high-noise environments. The effectiveness of steel channels in acoustic applications also depends on factors like space design, construction quality, and the use of additional soundproofing techniques. In conclusion, steel channels play a valuable role in achieving sound control and acoustic performance in various applications. Their strength, rigidity, and sound-dampening abilities make them suitable for creating sound barriers and minimizing noise transmission.
Q:Are steel channels suitable for sports facility construction?
Yes, steel channels are suitable for sports facility construction. Steel channels provide structural strength, durability, and versatility, making them ideal for supporting various loads and withstanding heavy usage in sports facilities. They can be easily fabricated and customized to meet specific design requirements, and their corrosion resistance ensures long-term reliability. Additionally, steel channels offer cost-effectiveness, as they require minimal maintenance and have a long lifespan.
Q:Can steel channels be used for sign supports?
Yes, steel channels can be used for sign supports. Steel channels are commonly used in construction for their strength and durability, making them suitable for supporting signs.
Q:Are steel channels resistant to pests or termites?
Yes, steel channels are highly resistant to pests and termites. Unlike wood, which is vulnerable to insect infestation, steel channels provide an inhospitable environment for pests. Termites do not feed on steel, as it is not a source of cellulose, which is their primary food source. Therefore, steel channels are an excellent choice for construction projects in areas prone to pest or termite infestations, as they offer long-lasting durability and protection against such issues.
Q:Do steel channels have any specific electrical conductivity properties?
No, steel channels do not have any specific electrical conductivity properties as they are primarily used for structural purposes rather than conducting electricity.
Q:What are the different standards for steel channels?
There are several different standards for steel channels, which are used to specify the dimensions, mechanical properties, and other characteristics of these structural components. Some of the most commonly used standards include: 1. ASTM A36: This is the most widely used standard for steel channels in the United States. It specifies the chemical composition, mechanical properties, and dimensional tolerances for carbon steel channels. 2. EN 10025: This European standard covers structural steel channels made from hot-rolled non-alloy and fine grain steels. It provides requirements for the chemical composition, mechanical properties, and delivery conditions of these channels. 3. JIS G3192: This Japanese industrial standard specifies the dimensions, mass, and tolerances for hot-rolled steel channels. It also includes requirements for the shape, appearance, and surface quality of these channels. 4. AS/NZS 3679.1: This Australian/New Zealand standard covers hot-rolled structural steel channels. It provides requirements for the chemical composition, mechanical properties, and dimensions of these channels. 5. GB/T 706-2008: This Chinese standard specifies the dimensions, shape, weight, and tolerances for hot-rolled channel steel. It also includes requirements for the technical requirements, test methods, and inspection rules for these channels. These standards ensure that steel channels meet certain quality and performance criteria, allowing them to be used safely and effectively in various construction and engineering applications. It is important to refer to the appropriate standard when selecting steel channels to ensure compliance with the required specifications.
Q:Are steel channels suitable for use in telecommunications infrastructure?
Yes, steel channels are suitable for use in telecommunications infrastructure. Steel channels provide structural support and stability, making them ideal for installing and securing equipment such as antennas, cables, and communication devices. They are durable, resistant to corrosion, and can withstand various environmental conditions, making them a reliable choice for telecommunications infrastructure.
Q:What's the name of channel steel?
Channel only classification, no alias.Such as: waist height is the same, leg width and waist thickness of different, you can have a, B, C three models.

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