• Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent System 1
  • Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent System 2
  • Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent System 3
Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent

Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent

Ref Price:
get latest price
Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
50 m.t.
Supply Capability:
5000 m.t./month

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Specification

Standard:
ASTM,JIS,GB
Technique:
Hot Rolled
Shape:
non
Surface Treatment:
non'
Steel Grade:
Q235
Certification:
non
Thickness:
6.0~18
Length:
6~12
Net Weight:
16.9~283

Product Description:

OKorder is offering Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent 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:

Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent are ideal for structural applications and are widely used in the construction of buildings and bridges, and the manufacturing, petrochemical, and transportation industries.

 

Product Advantages:

OKorder's Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent 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:

H Type Steel Size and Theoretical Weight

Size

Theoretical Weight

Size(mm)

Theoretical Weight

Size(mm)

Theoretical Weight

(mm)

(kg/m)

(kg/m)

(kg/m)

100*50*5*7

9.3

250*125*6*9

29

446*199*8*12

65.1

100*100*6*8

16.9

250*250*9*14

71.8

450*200*9*14

74.9

125*60*6*8

13.1

294*200*8*12

55.8

482*300*11*15

110.8

125*125*6.5*9

23.6

298*149*5.5*8

32

488*300*11*18

124.9

148*100*6*9

31.1

340*250*9*14

36.7

496*199*9*14

77.9

150*75*5*7

14

300*150*6.5*9

93

500*200*10*16

88.1

150*150*7*10

20.7

300*300*10*15

78.1

582*300*12*17

132.8

175*90*5*8

18

346*174*6*9

41.2

588*300*12*20

147

175*175*7.5*11

40.4

350*175*7*11

49.4

596*199*10*15

92.4

194*150*6*9

29.9

350*350*12*19

134.9

600*200*11*17

103.4

198*99*4.5*7

17.8

390*300*10*16

104.6

700*300*13*24

181.8

200*100*5.5*8

20.9

396*199*7*11

56.1

800*300*14*26

206.8

200*200*8*12

49.9

400*200*8*13

65.4

900*300*16*28

240.1

244*175*7*11

43.6

400*400*13*21

171.7

248*124*5*8

25.1

440*300*11*18

120.8

Length:12meters

 

·         Standard: GB, JIS, ASTM ST

·         Material: Q235, Q345, SS400, S235JR, S275JR, S355JR

·         Length: 5.8-12m or according to our clients' requirements

·         Origin: Tangshan, China

·         Package: load on 20 feet/40 feet container or by bulk according to the quantity and our client's requirement

·         Delivery time: within 20 days after receiving deposit or original L/C

·         Certificate: ISO, SGS, BV, CIQ or other test

·         Technic: Hot rolled

·         Surface: painted, galvanized or punch holes

·         Main market: East-south Asia, Mid-east, South American

·         Usage: Construction structure and Frame use

 

 

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.

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.

Q5: Can stainless steel rust?

A5: Stainless does not "rust" as you think of regular steel rusting with a red oxide on the surface that flakes off. If you see red rust it is probably due to some iron particles that have contaminated the surface of the stainless steel and it is these iron particles that are rusting. Look at the source of the rusting and see if you can remove it from the surface.

 

Images:

Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent

Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent

Hot Rolled Steel H-BEAM JIS SS400/GB Q235 or Equivalent

 

 

Q:Can steel H-beams be used in retail or shopping mall construction?
Yes, steel H-beams can be used in retail or shopping mall construction. Steel H-beams are commonly used in construction due to their strength and durability. They provide structural support and can bear heavy loads, making them suitable for large commercial buildings like retail or shopping malls. Additionally, steel H-beams can be easily fabricated and installed, offering flexibility in design and construction. Their use in retail or shopping mall construction ensures a solid and stable framework, allowing for the construction of spacious, open-plan retail spaces and accommodating various architectural designs.
Q:How do steel H-beams compare to timber beams in terms of maintenance requirements?
Compared to timber beams, steel H-beams offer a clear advantage in terms of maintenance. Unlike timber, steel H-beams are not vulnerable to rot, decay, or insect infestation. They possess exceptional durability and don't necessitate regular inspections or treatments to prevent these issues. Moreover, steel beams resist warping, twisting, and bending, which can occur over time with timber beams due to fluctuations in moisture levels. Consequently, steel H-beams retain their structural integrity for a longer duration without the need for repairs or replacements. In summary, steel H-beams have significantly lower maintenance requirements in comparison to timber beams, making them a more cost-effective and hassle-free choice in the long term.
Q:Can steel H-beams be used in historical or heritage building restoration?
Historical or heritage building restoration can indeed utilize steel H-beams. In restoration projects, steel H-beams are often favored due to their robustness, endurance, and adaptability. These beams effectively bolster weakened or damaged sections of a building, guaranteeing its stability and longevity. Moreover, steel H-beams can be tailored and assembled to mirror the original architectural elements of the structure, seamlessly integrating with the existing framework. Despite their modern composition, steel H-beams can be engineered to emulate traditional construction techniques, preserving the historical authenticity of the building whilst delivering the necessary reinforcement. Therefore, steel H-beams present a viable choice for the restoration of historical or heritage buildings.
Q:How do Steel H-Beams contribute to the overall life cycle assessment of a structure?
Steel H-Beams contribute significantly to the overall life cycle assessment of a structure by providing strength, stability, and durability. These beams are commonly used in construction due to their high load-bearing capacity, allowing for the design of lighter and more efficient structures. Additionally, steel is a highly recyclable material, which means H-Beams can be reused or recycled at the end of their lifespan, reducing the environmental impact. Overall, Steel H-Beams play a crucial role in enhancing the sustainability and longevity of a structure, making them a valuable component in its life cycle assessment.
Q:Are steel H-beams resistant to ultraviolet (UV) radiation?
Steel H-beams are not inherently resistant to ultraviolet (UV) radiation. UV radiation from the sun can cause degradation and discoloration of steel surfaces over time. However, the extent of this degradation depends on various factors such as the specific type of steel used and the duration and intensity of UV exposure. To mitigate the effects of UV radiation on steel H-beams, protective coatings can be applied. These coatings act as a barrier, shielding the steel from direct exposure to UV rays. Common protective coatings for steel include paint, powder coating, and galvanizing. Paint coatings provide a layer of protection against UV radiation, but they may require periodic maintenance and reapplication to ensure continued effectiveness. Powder coating, on the other hand, offers greater durability and resistance to UV radiation. Galvanizing is another option, where steel H-beams are coated with a layer of zinc to provide protection against UV radiation and corrosion. It is important to note that even with protective coatings, the long-term durability of steel H-beams under UV exposure will depend on factors such as the quality of the coating, the environment in which they are installed, and maintenance practices. Regular inspection and maintenance can help identify any signs of degradation or damage and allow for timely repairs or reapplication of protective coatings if necessary. In summary, while steel H-beams are not inherently resistant to UV radiation, the use of protective coatings can significantly enhance their resistance to UV degradation and extend their lifespan.
Q:Are steel H-beams susceptible to bending or warping?
Steel H-beams are highly resistant to bending or warping due to their structural design and material strength. The shape and composition of H-beams provide them with excellent load-bearing capabilities, making them less susceptible to deformation under heavy loads or external forces.
Q:What are the considerations when designing for vibration control in Steel H-Beams?
When designing for vibration control in Steel H-Beams, there are several important considerations that need to be taken into account. These include: 1. Material selection: Choosing the right type of steel for the H-Beam is crucial for effective vibration control. Steel with high stiffness and strength properties, such as high-strength low-alloy (HSLA) steel or carbon steel, is often preferred to minimize vibrations. 2. Structural design: The design of the H-Beam itself plays a significant role in vibration control. Factors such as the size and shape of the beam, the spacing and size of stiffeners, and the presence of additional bracing or damping elements need to be carefully considered to enhance the beam's vibration resistance. 3. Damping mechanisms: Incorporating damping mechanisms into the H-Beam design can help absorb and dissipate vibration energy. This can be achieved through the use of materials with inherent damping properties, such as composite materials or viscoelastic materials, or through the addition of tuned mass dampers or dynamic absorbers. 4. Dynamic loading conditions: Understanding the dynamic loading conditions that the H-Beam will be subjected to is essential for effective vibration control. This includes considering factors such as the frequency and amplitude of the vibrations, as well as any potential resonant frequencies that may occur. 5. Structural connections: Ensuring proper connections between the H-Beam and other structural elements is crucial for vibration control. Adequate stiffness and strength in the connections will help to minimize the transmission of vibrations through the structure. 6. Environmental factors: The environment in which the H-Beam will be located can also impact vibration control considerations. Factors such as temperature variations, humidity, and exposure to corrosive substances can affect the performance of the beam and its ability to resist vibrations. Overall, designing for vibration control in Steel H-Beams requires a comprehensive understanding of the structural dynamics involved, as well as careful consideration of material selection, structural design, damping mechanisms, loading conditions, connections, and environmental factors. By addressing these considerations, engineers can ensure that H-Beams are designed to effectively control vibrations and optimize the performance and safety of the structure.
Q:Can steel H-beams be used for stadiums or arenas?
Yes, steel H-beams can be used for stadiums or arenas. Steel H-beams are commonly used in the construction industry due to their high strength and durability. They are capable of withstanding heavy loads and providing structural support for large structures like stadiums and arenas. The H-shape of the beams allows for better distribution of weight, making them an ideal choice for such applications. Additionally, steel H-beams can be easily fabricated and customized to meet the specific requirements of the project, making them a popular choice for large-scale construction projects.
Q:What are the load-bearing capabilities of steel H-beams?
Due to their high load-bearing capabilities, steel H-beams are commonly employed in construction and structural engineering. The load-bearing capacity of these beams relies on multiple factors, including the beam's size, shape, and the grade and quality of the steel used. Furthermore, the span and support conditions, as well as the type and magnitude of the load being applied, also play a significant role in determining their load-bearing capabilities. Steel H-beams are specifically engineered to withstand heavy loads and provide structural stability. Their ability to support substantial vertical and horizontal loads makes them particularly suitable for large-scale construction projects like bridges, skyscrapers, and industrial buildings. To further enhance the load-bearing capacity of steel H-beams, thicker or higher-grade steel can be utilized, the size or depth of the beam can be increased, or additional support elements such as columns or braces can be incorporated. Engineers and designers typically specify the load-bearing capabilities of steel H-beams based on the particular requirements of the project. Through structural calculations and analysis, the maximum load that the beam can safely carry without failure or excessive deflection is determined. These calculations take into account factors such as the steel's material properties, the beam's design, the applied loads, and the safety factors mandated by building codes and regulations. In conclusion, steel H-beams possess exceptional load-bearing capabilities, making them extensively used in construction and structural engineering. Their strength and durability enable them to effectively support heavy loads and ensure the structural integrity of various types of buildings and structures. However, it is crucial to consult with a structural engineer or professional to accurately ascertain the load-bearing capabilities of steel H-beams for a specific project.
Q:What are the safety considerations for steel H-beams in construction?
When utilizing steel H-beams in construction, it is essential to bear in mind several significant safety considerations. First and foremost, it is imperative to guarantee that the steel H-beams being employed meet all requisite quality and safety standards. These beams should originate from reputable suppliers and possess certifications confirming their compliance with the necessary strength and load-bearing capacity requirements. It is vital to comprehend the particular load demands of the construction project and ascertain that the H-beams are designed to withstand the anticipated loads. During the installation process, it is necessary to adhere to proper lifting and handling techniques to avert accidents and injuries. Given that steel H-beams are frequently heavy, specialized equipment is required for their transportation and installation. It is crucial to utilize cranes or forklifts with suitable lifting capacities and securely fasten the beams during transport to prevent any shifting or falling. Additionally, when employing steel H-beams, it is important to ensure appropriate connections and fastenings. The connections between the beams and other structural elements, such as columns or walls, should be designed and executed in accordance with engineering specifications. The use of suitable bolts, welding techniques, or other fastening methods should be employed to guarantee secure attachment of the beams and their ability to withstand the intended loads and forces. Regular inspections and maintenance are also critical for ensuring the ongoing safety of steel H-beams in construction. Periodic inspections should be carried out to inspect for signs of corrosion, damage, or wear. Any issues identified should be promptly addressed to prevent further deterioration and ensure the beams' structural integrity. Finally, providing proper safety measures for workers engaged in the construction process is of utmost importance. This includes furnishing personal protective equipment (PPE) such as hard hats, safety harnesses, and gloves, as well as implementing safety protocols and training programs. Appropriate signage and barricades should be utilized to clearly mark hazardous areas and prevent unauthorized access. By taking these safety considerations into account, construction projects can ensure the secure and efficient utilization of steel H-beams, thereby minimizing the risks of accidents, injuries, and structural failures.

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