• Japanese Standard SS400 H beam with High Quality 388mm-400mm System 1
  • Japanese Standard SS400 H beam with High Quality 388mm-400mm System 2
  • Japanese Standard SS400 H beam with High Quality 388mm-400mm System 3
Japanese Standard SS400 H beam with High Quality 388mm-400mm

Japanese Standard SS400 H beam with High Quality 388mm-400mm

Ref Price:
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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
100 m.t
Supply Capability:
15000 m.t/month

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Item specifice

Standard:
JIS
Technique:
Hot Rolled
Shape:
H
Surface Treatment:
No
Steel Grade:
SS400-SS490
Certification:
SGS
Thickness:
8.0mm-15.0mm
Length:
12m
Net Weight:
65.4kg/m-147kg/m

Specifications of Japanese Standard SS400 H beam with High Quality 388mm-400mm:

1. Standard: JIS 3192

2. Grade: SS400 or Equivalent

3. Length: 10m, 12m as following table

4. Invoicing on theoretical weight or actual weight as customer request

5.Payment: TT or L/C

 

Size and Mass of Japanese Standard SS400 H beam with High Quality 388mm-400mm:

Size(mm)Mass (Kg/m)Size (mm)Mass (Kg/m)
400*200*8.065.4388*402*15.0140
390*300*10.0105394*398*11.0147


Packaging & Delivery of Japanese Standard SS400 H beam with High Quality 388mm-400mm for Building Structures:

1. Packing: it is nude packed in bundles by steel wire rod

2. Bundle weight: not more than 3.5MT for bulk vessel; less than 3 MT for container load

3. Marks:

Color marking: There will be color marking on both end of the bundle for the cargo delivered by bulk vessel. That makes it easily to distinguish at the destination port.

Tag mark: there will be tag mark tied up on the bundles. The information usually including supplier logo and name, product name, made in China, shipping marks and other information request by the customer.

If loading by container the marking is not needed, but we will prepare it as customer request.

4. Transportation: the goods are delivered by truck from mill to loading port, the maximum quantity can be loaded is around 40MTs by each truck. If the order quantity cannot reach the full truck loaded, the transportation cost per ton will be little higher than full load.

5. Delivered by container or bulk vessel.

 

FAQ:

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

A1: All products offered by OKorder.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 arrange production. The shipping date is dependent upon the quatity, how many sizes you want and the plan of production, but is typically 1 month to 2 months from the beginning of production.

 

Images of Japanese Standard SS400 H beam with High Quality 388mm-400mm:

Japanese Standard SS400 H beam with High Quality 388mm-400mm

Japanese Standard SS400 H beam with High Quality 388mm-400mm

 

* If you would like to get our price, please inform us the size, standard/material and quantity. Thank you very much for your attention.

Q:Are steel H-beams resistant to extreme temperatures?
Yes, steel H-beams are generally resistant to extreme temperatures. Steel has a high melting point and can withstand both high and low temperatures without significant structural changes.
Q:Can Steel H-Beams be used in temporary or relocatable structures?
Yes, steel H-beams can be used in temporary or relocatable structures. The versatility and strength of steel make it an ideal material for such applications. H-beams provide structural support and stability, making them suitable for various temporary structures like portable buildings, event stages, and relocatable warehouses. Their ability to be easily assembled and disassembled adds to their suitability for temporary or relocatable structures.
Q:Can steel H-beams be used in airport hangar construction?
Indeed, airport hangar construction can involve the utilization of steel H-beams. These beams are widely employed in the construction industry due to their remarkable strength, durability, and versatility. They possess the ability to withstand substantial loads and offer exceptional support for extensive structures such as airport hangars. The unique H shape of these beams enhances their strength and stability, rendering them well-suited for the construction of vast buildings like hangars. Moreover, steel is the preferred material for hangar construction owing to its resistance to fire, pests, and rot, which ensures the safety and longevity of the structure. Consequently, steel H-beams prove to be a fitting choice for airport hangar construction.
Q:Are steel H-beams suitable for power plants?
Yes, steel H-beams are suitable for power plants. They offer excellent structural strength, durability, and load-bearing capacity, making them ideal for supporting heavy equipment and structures in power plants. Additionally, steel H-beams can withstand high temperatures and provide resistance against corrosion, making them well-suited for the demanding conditions typically found in power plant environments.
Q:Are steel H-beams suitable for structures with high snow loads?
Yes, steel H-beams are suitable for structures with high snow loads. Steel H-beams have excellent strength and load-bearing capacity, making them ideal for withstanding heavy snow loads. The H shape of the beam allows for efficient distribution of the load, providing stability and structural integrity. Additionally, steel is a durable and long-lasting material that can withstand harsh weather conditions, including heavy snow. Therefore, steel H-beams are commonly used in construction projects located in areas with high snow loads to ensure the safety and stability of the structure.
Q:Can steel H-beams be used for pedestrian bridges?
Steel H-beams are indeed suitable for pedestrian bridges. Due to their structural strength and stability, they are commonly utilized in construction projects. These beams are engineered to withstand heavy loads and offer exceptional support, making them a perfect fit for bridges. Even though pedestrian bridges typically bear lighter loads compared to those for vehicles, they still necessitate a sturdy and long-lasting structure to ensure safety. By using steel H-beams, a robust framework can be established for pedestrian bridges, providing a secure and stable pathway for pedestrians. Furthermore, steel exhibits high resistance to environmental factors like corrosion, which is particularly crucial for bridges exposed to outdoor elements. Hence, steel H-beams present a fitting choice for the construction of pedestrian bridges.
Q:Can steel H-beams be used in curved structures?
Yes, steel H-beams can be used in curved structures. H-beams are versatile structural components that can be used in a variety of applications, including curved structures. They are commonly used in construction projects where curved or arched designs are desired, such as bridges, stadiums, and architectural structures. To create a curved structure using steel H-beams, the beams can be bent or curved to the desired shape. This can be done through various fabrication techniques, such as cold bending, hot bending, or rolling the beams. The ability to bend or curve steel H-beams allows for the creation of complex and aesthetically pleasing structures that can withstand the required loads and stresses. It is important to note that the process of bending or curving steel H-beams requires specialized knowledge, equipment, and expertise. Structural engineers, architects, and steel fabricators must work together to ensure that the curved structure meets the necessary design requirements and safety standards. Additionally, factors such as the type and grade of steel used, the bending radius, and the structural loads must be carefully considered during the design and fabrication process. In summary, steel H-beams can be used in curved structures by bending or curving them to the desired shape. With proper design and fabrication techniques, steel H-beams can provide structural support and stability in a wide range of curved architectural and construction projects.
Q:What are the different sizes of steel H-beams available?
The sizes of steel H-beams available vary depending on the manufacturer and supplier. However, some common sizes include H-beams with depths ranging from 4 inches to over 40 inches, and flange widths ranging from 4 inches to over 20 inches. These sizes are often designated using standard measurements such as inches or millimeters.
Q:Are steel H-beams resistant to corrosion or rust?
Yes, steel H-beams are generally resistant to corrosion or rust due to the protective layer formed by their zinc coating or other anti-corrosion treatments.
Q:What are the different types of steel H-beam connections used in industrial buildings?
Industrial buildings commonly use several different types of steel H-beam connections to ensure stability and support for the overall structure. Below are some of the most frequently utilized connection types: 1. Welded connection: The prevalent connection type in industrial buildings involves welding the H-beam to other structural members or plates. Welded connections offer exceptional strength and rigidity, making them suitable for heavy-duty applications. 2. Bolted connection: In bolted connections, the H-beam is secured to other structural members using bolts and nuts. This connection type allows for convenient disassembly and reassembly, making it ideal for buildings that may require modification or relocation in the future. 3. Pinned connection: Pinned connections permit rotation at the joint, adding flexibility to the structure. This connection type is commonly employed in situations that necessitate accommodating movement or vibration, such as bridges or buildings located in earthquake-prone areas. 4. Moment connection: Moment connections are designed to transfer both vertical and horizontal forces between the H-beams and other structural members. These connections provide enhanced stability and resistance against bending moments, making them suitable for structures with high loads or complex geometries. 5. Shear connection: Shear connections are utilized to transfer shear forces between the H-beams and other structural members. These connections are typically designed to resist lateral loads and provide stability to the structure. Various factors, including load requirements, structural design, and construction method, influence the choice of H-beam connection type. Engineers and designers evaluate these factors to determine the most suitable connection type for each specific application.

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