Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345

Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345 System 1

Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 25 m.t.

Supply Capability:: 2000000 m.t./month

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Item specifice

Standard:

EN,API,DIN,BS,GB,JIS,ASTM,AISI

Technique:

Cold Drawn,ERW,Hot Rolled,Spring,EFW,Extruded,Saw,Forged,Cold Rolled

Shape:

LTZ,Oval,Rectangular,Round,Hexagonal,C Channel,Square,U Channel

Surface Treatment:

Black,PVDF Coated,Bright,Polished,Dry,Oiled,Color Coated,Copper Coated,Coated,Galvanized,Chromed Passivation

Steel Grade:

Q195,Q215,Q235,Q215B,Q235B,RHB335,HRB400,200 Series,300 Series,400 Series,600 Series,SS400-SS490,10#,20#,A53(A,B)

Certification:

ISO,SGS,BV,IBR,RoHS,CE,API,BSI,UL

Thickness:

15MM

Length:

Net Weight:

25MT

Product Description:

OKorder is offering high quality Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345 at great prices with worldwide shipping. Our supplier is a world-class manufacturer of steel, with our products utilized the world over. OKorder annually supplies products to European, North American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

Product Applications:

According to the needs of different structures, Angle can compose to different force support component, and also can be the connections between components. It is widely used in various building structures and engineering structures such as roof beams, bridges, transmission towers, hoisting machinery and transport machinery, ships, industrial furnaces, reaction tower, container frame and warehouse etc

Product Advantages:

Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345 are durable, strong, and resist corrosion.

Main Product Features:

· Premium quality

· Prompt delivery & seaworthy packing (30 days after receiving deposit)

· Corrosion resistance

· Can be recycled and reused

· Mill test certification

· Professional Service

· Competitive pricing

Product Specifications:

Manufacture: Hot rolled

Grade: Q195 – 235

Certificates: ISO, SGS, BV, CIQ

Length: 6m – 12m, as per customer request

Packaging: Export packing, nude packing, bundled

Sizes: 25mm-250mm

a*t

25*2.5-4.0

70*6.0-9.0

130*9.0-15

30*2.5-6.6

75*6.0-9.0

140*10-14

36*3.0-5.0

80*5.0-10

150*10-20

38*2.3-6.0

90*7.0-10

160*10-16

40*3.0-5.0

100*6.0-12

175*12-15

45*4.0-6.0

110*8.0-10

180*12-18

50*4.0-6.0

120*6.0-15

200*14-25

60*4.0-8.0

125*8.0-14

250*25

FAQ:

Q1: Why buy Materials & Equipment from OKorder.com?

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.

Q3: How soon can we receive the product after purchase?

A3: Within three days of placing an order, we will begin production. The specific shipping date is dependent upon international and government factors, but is typically 7 to 10 workdays.

Hot Rolled Steel Angel ASTM Or GB Q235 Or Q345

Q:Are steel angles suitable for use in high-rise buildings?: Yes, steel angles are suitable for use in high-rise buildings. Steel angles are commonly used as structural elements in high-rise buildings due to their excellent strength, durability, and versatility. They are able to withstand heavy loads and provide structural support, making them ideal for use in beams, columns, and bracing systems. Steel angles can be easily fabricated and installed, allowing for efficient construction processes. Additionally, steel angles can be designed in various sizes and shapes to meet specific structural requirements, providing flexibility in design and construction. Overall, steel angles are a reliable and cost-effective choice for high-rise buildings as they offer the necessary strength and stability required for such structures.

Q:Can steel angles be cold-formed or bent to specific shapes?: Indeed, it is possible to cold-form or bend steel angles to attain particular shapes. Cold forming refers to the act of reshaping metal without the application of heat, usually accomplished through techniques such as bending, rolling, or pressing. Steel angles, which consist of L-shaped steel components, can undergo cold forming to achieve diverse shapes and angles in accordance with project specifications. This procedure entails exerting force and pressure on the steel angle, resulting in its deformation and acquisition of the desired form. By employing cold forming techniques on steel angles, one can achieve design flexibility and customization while preserving the strength and durability of the steel material.

Q:What is the maximum thickness of a steel angle?: The manufacturing process and application requirements typically determine the maximum thickness of a steel angle. Generally, steel angles can have a thickness ranging from 1/8 inch to several inches. However, it is crucial to acknowledge that the availability of thicker steel angles may differ based on the supplier and the grade of steel utilized. To ascertain the maximum thickness of a steel angle for a specific project, it is advisable to seek counsel from a structural engineer or a steel supplier who can offer guidance considering the requisite requirements and load-bearing capacities.

Q:Can steel angles be used for load-bearing walls?: No, steel angles are not typically used for load-bearing walls. Load-bearing walls require structural support and are typically constructed using materials such as reinforced concrete or steel beams/columns. Steel angles may be used for non-load-bearing purposes such as framing or decorative purposes.

Q:How do you protect steel angles from weathering?: There are various effective methods available for protecting steel angles from weathering. The primary approach involves the application of a specially designed coating or paint that is intended for steel surfaces. This coating acts as a barrier, preventing direct contact between moisture, oxygen, and the steel, thereby reducing the likelihood of rust formation. It is crucial to select a weather-resistant coating that offers long-term durability. Before applying the protective coating, it is essential to thoroughly clean the steel angles to eliminate any dirt, grease, or existing rust. This can be accomplished through abrasive cleaning techniques such as sandblasting or by using a wire brush. Once the cleaning process is complete, the surface should be primed with a corrosion-resistant primer, which improves the adhesion of the protective coating. Regular maintenance is also vital to ensure the continuous protection of steel angles from weathering. This involves periodically inspecting the coating for any signs of damage or wear and promptly addressing any issues that arise. Touching up areas where the coating has been compromised is necessary to maintain the integrity of the protective layer. In addition, proper design and installation techniques can contribute to protecting steel angles from weathering. It is crucial to ensure that the angles are adequately sealed and shielded from direct exposure to rain, snow, or other sources of moisture. This can be achieved by implementing appropriate drainage systems, such as gutters or downspouts, to redirect water away from the steel angles. Lastly, considering alternative materials or coatings that possess inherent resistance to weathering, such as stainless steel or galvanized steel, can provide an additional layer of protection against environmental elements. These materials have higher corrosion resistance and are more suitable for outdoor applications where weathering is a concern. By implementing a combination of protective coatings, regular maintenance, proper design, and the utilization of weather-resistant materials, steel angles can be effectively safeguarded from weathering while maintaining their structural integrity over an extended period.

Q:Can steel angles be used in high-rise or multi-story buildings?: Yes, steel angles can be used in high-rise or multi-story buildings. Steel angles are commonly used in construction due to their high strength, versatility, and cost-effectiveness. In high-rise buildings, steel angles are often utilized for various structural elements such as beams, columns, and bracing systems. They provide excellent support for transferring loads and forces within the building, contributing to the overall stability and structural integrity. Moreover, steel angles can be easily fabricated and installed, allowing for efficient construction processes in large-scale projects. Therefore, steel angles are widely accepted and utilized in the construction of high-rise or multi-story buildings.

Q:How do you calculate the moment resistance of a steel angle?: To calculate the moment resistance of a steel angle, you need to consider the geometry and material properties of the angle. The moment resistance refers to the ability of the angle to withstand bending forces. First, you need to determine the section modulus, which is a measure of the shape's resistance to bending. The section modulus can be calculated by taking the moment of inertia of the angle (I) and dividing it by the distance from the centroid of the shape to the furthest point (c). Next, you need to determine the yield strength of the steel angle. This is the point at which the material starts to deform permanently. The yield strength is typically provided by the manufacturer or can be obtained from material testing. Finally, the moment resistance can be calculated by multiplying the section modulus (Z) by the yield strength (σ). This gives you the maximum moment the steel angle can resist before it starts to deform permanently. Moment Resistance = Z * σ It is important to note that this calculation assumes the steel angle is subjected to pure bending. If there are additional factors such as axial or shear forces, additional calculations or considerations may be required. Additionally, it is always recommended to consult relevant design codes or engineering handbooks for more accurate and detailed calculations.

Q:How do steel angles perform in terms of energy efficiency?: Steel angles can be an energy-efficient option depending on their design and application. The energy efficiency of steel angles primarily depends on factors such as the type and thickness of the steel used, the manufacturing process employed, and the installation techniques. One aspect that contributes to the energy efficiency of steel angles is their thermal conductivity. Steel, being a conductive material, can transfer heat quickly, which can be advantageous in certain applications. For instance, steel angles can efficiently conduct heat away from building components in cooling systems, helping to maintain desired temperature levels and reduce energy consumption. Furthermore, steel angles can be designed to optimize their structural performance, reducing the need for additional materials or construction methods. This can result in lower energy usage during the manufacturing and installation processes. Additionally, steel angles can be recycled, making them an environmentally friendly choice. The energy required to recycle steel is significantly lower compared to producing it from raw materials. This reduces the energy demand and greenhouse gas emissions associated with steel production. However, it is important to note that the overall energy efficiency of steel angles also depends on their application and the overall design of the structure. Proper insulation, sealing, and design considerations are crucial to ensure optimal energy efficiency. It is recommended to consult with professionals and engineers to determine the most efficient use of steel angles in specific projects. In conclusion, steel angles can offer energy-efficient solutions when used appropriately. By considering factors such as thermal conductivity, structural optimization, and recyclability, steel angles can contribute to reducing energy consumption and promoting sustainability in various applications.

Q:Can steel angles be used for manufacturing furniture?: Yes, steel angles can be used for manufacturing furniture. Steel angles are versatile and durable, making them suitable for various applications including furniture manufacturing. They can be used to create strong and sturdy frames, legs, and supports for different types of furniture such as tables, chairs, shelves, and cabinets. Steel angles are known for their strength and structural integrity, making them an excellent choice for furniture that needs to withstand heavy loads or have a long lifespan. Additionally, steel angles can be easily welded, cut, and shaped to fit specific design requirements, allowing for customization and creativity in furniture manufacturing.

Q:Can steel angles be used in agricultural or farming structures?: Yes, steel angles can be used in agricultural or farming structures. Steel angles, with their L-shaped profile, provide excellent structural support and are commonly used in construction projects. In agricultural or farming structures, steel angles can be used for various purposes such as framing for barns, sheds, or storage facilities. They can also be used for constructing fencing systems, gates, or other livestock enclosures. The durability and strength of steel angles make them ideal for withstanding the harsh outdoor conditions and heavy loads typically found in agricultural and farming environments. Additionally, steel angles can be easily welded or bolted together, allowing for flexible and efficient construction methods. Overall, steel angles are a practical and reliable choice for incorporating into agricultural or farming structures.

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