• Steel H Beam for Steel Structure System 1
  • Steel H Beam for Steel Structure System 2
  • Steel H Beam for Steel Structure System 3
  • Steel H Beam for Steel Structure System 4
  • Steel H Beam for Steel Structure System 5
Steel H Beam for Steel Structure

Steel H Beam for Steel Structure

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Loading Port:
China Main Port
Payment Terms:
TT or LC
Min Order Qty:
100 m.t.
Supply Capability:
5000MT m.t./month

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Product Description:

OKorder is offering Steel H Beam for Steel Structure 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 African, South American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

 

Product Applications:

Steel H Beam for Steel Structure are ideal for structural applications and are used in commercial building structure; pre-engineered buildings; machinery support structure; prefabricated structure; medium scale bridges; ship-building structure etc.

 

Product Advantages:

OKorder's Steel H Beam for Steel Structure are durable, strong, and wide variety of sizes.

 

Main Product Features:

·         Premium quality

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

·         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:12m, as per customer request

Packaging: Export packing, nude packing, bundled

size

Kg/m

100*100

16.9

125*125

23.6

150*75

14

150*150

31.1

148*100

20.7

198*99

17.8

200*100

20.9

248*124

25.1

250*125

29

 

FAQ:

Q1: what is the difference between actual weight and theoretical weight?

A1: All the section steel has two weights: actual weight and theoretical weight. Actual weight is the weighing out when the product delivered from the mill. Theoretical weight is calculated by pieces.  The invoice can be based on each of them as your request.

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 arrange production. The normal sizes with the normal grade can be produced within one month. The specific shipping date is dependent upon international and government factors, the delivery to international main port about 45-60days.

 

Images:

Q:Are there any safety concerns related to steel H-beams?
Yes, there are safety concerns related to steel H-beams. While steel H-beams are commonly used in construction and provide structural support, there are several factors that need to be considered to ensure safety. One of the primary concerns is the potential for structural failure. Steel H-beams can be subjected to various loads, including static, dynamic, and environmental forces. If the beams are not properly designed, fabricated, or maintained, they can experience structural weaknesses or defects that may lead to collapse or failure. Another safety concern is related to fire resistance. Steel H-beams, like other steel structures, can be vulnerable to fire. The high temperatures during a fire can weaken the steel, reducing its load-bearing capacity. Therefore, fire protection measures such as fire-resistant coatings or fireproofing materials should be implemented to enhance the safety of steel H-beams in fire-prone areas. Additionally, during construction or maintenance activities involving steel H-beams, there is a risk of accidents and injuries. Workers must follow proper safety protocols, including wearing personal protective equipment, using appropriate lifting and rigging techniques, and ensuring that the beams are securely fastened to prevent accidents such as falling or structural collapse. Lastly, the weight and size of steel H-beams can pose challenges during transportation, handling, and installation. Specialized equipment and trained personnel are required to safely lift, move, and position these heavy beams. Failure to adhere to safety procedures can result in accidents, injuries, or damage to property. In conclusion, while steel H-beams are a common and reliable choice for structural support, safety concerns exist. Proper design, fabrication, maintenance, fire protection measures, and adherence to safety protocols are essential to ensure the safe use of steel H-beams in construction and related activities.
Q:How do you calculate the plastic section modulus of steel H-beams?
To determine the plastic section modulus of steel H-beams, it is necessary to go through a series of steps. The plastic section modulus serves as a measure of the beam's resistance to bending and is crucial in establishing its load-carrying capability. Firstly, the geometry of the H-beam must be determined. The plastic section modulus relies on various dimensions, including the width, height, flange thickness, and web thickness of the H-beam. These measurements are typically provided by the manufacturer or can be directly measured. Next, the area of the H-beam must be calculated. This involves subtracting the area of the flanges from the area of the web. The formula for the H-beam's area is as follows: Area = (2 * flange thickness * flange width) + (web thickness * web height). The centroid of the H-beam needs to be calculated as well. The centroid represents the point at which the entire area of the H-beam can be considered to act. The formula for determining the centroid is: Centroid = (A1 * y1 + A2 * y2) / (A1 + A2). In this formula, A1 and A2 refer to the areas of the flanges and web, respectively, while y1 and y2 represent the distances from the centroid of each area to the neutral axis. The moment of inertia, which gauges the H-beam's resistance to bending, must also be calculated. The parallel axis theorem can be used to determine the moment of inertia. The formula for the moment of inertia is as follows: I = (A1 * y1^2) + (A2 * y2^2) + (A1 * (y1 - Centroid)^2) + (A2 * (y2 - Centroid)^2). In this formula, A1, A2, y1, y2, and Centroid are defined as in step 3. Finally, the plastic section modulus can be calculated by dividing the moment of inertia by the distance from the neutral axis to the extreme fiber, which is typically the point of maximum stress. The formula for the plastic section modulus is: Z = I / c. In this formula, Z represents the plastic section modulus, I denotes the moment of inertia, and c signifies the distance from the neutral axis to the extreme fiber. By following these steps and utilizing the appropriate formulas, one can accurately compute the plastic section modulus of steel H-beams. This value is crucial in ascertaining the beam's load-carrying capacity and its ability to withstand bending forces.
Q:Are there any design guidelines or codes for using steel H-beams?
Yes, there are design guidelines and codes for using steel H-beams. These guidelines and codes are provided by various organizations such as the American Institute of Steel Construction (AISC) in the United States or the Eurocodes in Europe. These guidelines cover various aspects including the design, fabrication, and erection of steel H-beams to ensure their structural integrity and safety in different applications.
Q:What are the common sizes of steel H-beams available in the market?
The common sizes of steel H-beams available in the market vary depending on the specific requirements and applications. However, some standard sizes are commonly found in the market. These sizes typically range from 100mm to 1000mm in height, with widths varying from 50mm to 500mm. The lengths of steel H-beams can also vary, but they are often available in standard lengths of 6 meters, 9 meters, or 12 meters. These common sizes cater to a wide range of construction and structural needs, allowing for flexibility and adaptability in various projects.
Q:How do you calculate the shear force in steel H-beams?
To calculate the shear force in steel H-beams, you need to determine the applied load and its distribution along the beam's length. This load distribution will create shear forces that vary along the beam. By using the principles of equilibrium and considering the geometry of the H-beam, you can determine the magnitude and distribution of shear forces. Various engineering formulas and calculations are available to aid in this calculation, taking into account factors such as the beam's dimensions, material properties, and support conditions.
Q:How do steel H-beams perform in areas with high wind loads?
Steel H-beams perform very well in areas with high wind loads. The H-shape design of these beams provides superior strength and stability, making them highly resistant to lateral forces caused by strong winds. The structural integrity of steel H-beams allows them to distribute the wind load evenly throughout the entire beam, minimizing the risk of failure or deformation. Additionally, steel is a durable and flexible material, which further enhances its performance in high wind areas. The high tensile strength of steel enables it to withstand the pressure exerted by strong winds, offering excellent resistance against bending or buckling. Overall, steel H-beams are an ideal choice for construction in areas with high wind loads, providing reliable and long-lasting support to structures in such conditions.
Q:How do steel H-beams perform in structures subjected to vibration?
Steel H-beams are known for their excellent performance in structures subjected to vibration. Their robust and rigid construction helps to minimize the effects of vibration, providing enhanced stability and structural integrity. The H-shaped cross-section of these beams ensures efficient load distribution, reducing the chance of resonance and dampening vibrations. Overall, steel H-beams are highly effective in withstanding and mitigating the impact of vibration in structures.
Q:Can Steel H-Beams be recycled or reused?
Steel H-Beams possess the capability of being recycled and reused, just like other steel materials. Steel is widely known for its high recyclability, making H-Beams no exception. Once H-Beams become obsolete, they can be gathered and transported to recycling centers or scrap yards. Subsequently, the beams are melted down and transformed into fresh steel products. By recycling H-Beams, the demand for raw materials is diminished, resulting in energy and resource conservation. Moreover, if the H-Beams are still in good condition, they can be utilized in construction projects, offering cost-effective and sustainable solutions. In conclusion, the recycling and reusing of Steel H-Beams significantly contribute to an environmentally friendly and sustainable construction industry.
Q:How do steel H-beams contribute to the overall sound insulation of a building?
The overall sound insulation of a building is not directly influenced by steel H-beams. Sound insulation primarily relies on the materials used for walls, floors, and ceilings, as well as the construction techniques applied. However, steel H-beams can indirectly impact sound insulation in a building in several ways. Firstly, they ensure structural support to the building, guaranteeing stability and preventing vibrations. This can help minimize the transmission of sound caused by vibrations from external sources, like traffic or machinery, into the building. Moreover, steel H-beams can be employed in the construction of suspended ceilings or raised floors, which are often designed to optimize sound insulation. These components can incorporate insulation materials, such as mineral wool or acoustic mats, that aid in absorbing sound and reducing its transmission between different areas of the building. Furthermore, steel H-beams can be utilized in the construction of partition walls, which contribute to sound insulation between different rooms or units within a building. By providing a robust framework, H-beams can support soundproofing materials, such as dense gypsum boards or acoustic panels, which effectively minimize sound transmission. Although steel H-beams themselves do not directly contribute to sound insulation, their inclusion in building construction can facilitate the implementation of soundproofing measures and enhance the overall acoustic performance of a building.
Q:Can steel H-beams be used for shopping complexes?
Certainly, shopping complexes can utilize steel H-beams. Owing to their remarkable strength and ability to bear heavy loads, steel H-beams find frequent application in construction ventures. These beams offer structural reinforcement and stability, rendering them ideal for expansive structures like shopping complexes. Moreover, the simplicity and convenience of fabricating and installing steel H-beams make them a financially prudent option for such endeavors.

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