JIS Standard SS400 H beams with Good Quality 400mm-414mm
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- 100 m.t
- Supply Capability:
- 15000 m.t/month
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Specifications of JIS Standard SS400 H beams with Good Quality 400mm-414mm:
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 JIS Standard SS400 H beams with Good Quality 400mm-414mm:
Size (mm) | Mass (Kg/m) | Size (mm) | Mass (Kg) |
400*400*13.0 | 172 | 414*405*18.0 | 232 |
400*408*21.0 | 197 | |
Packaging & Delivery of JIS Standard SS400 H beams with Good Quality 400mm-414mm 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. Transportation: the goods are delivered by truck from mill to loading port, the maximum quantity can be loaded is around 40MTs by each truc4. If the order quantity cannot reach the full truck loaded, the transportation cost per ton will be little higher than full load.
4. Delivered by container or bulk vessel
Usage of JIS Standard SS400 H beams with Good Quality 400mm-414mm:
(1). for the plant, high-rise building construction
(2). for the bridge, shipment building
(3).for lifting and transportation machinery, equipment manufacturing base building
(4). for the support, foundation pile manufacturing
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 days from the beginning of production.
Images of JIS Standard SS400 H beams with Good Quality 400mm-414mm:
* 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:Can Steel H-Beams be used in elevated or suspended structures?
- Yes, steel H-beams can be used in elevated or suspended structures. They are commonly used in construction projects such as bridges, mezzanines, platforms, and high-rise buildings due to their strength, durability, and load-bearing capabilities.
- Q:What are the different methods of installing steel H-beams?
- There are several methods of installing steel H-beams, including using a crane to lift and position the beams into place, welding the beams together on-site, bolting the beams together, or using specialized connectors or brackets to secure the beams in position. The specific method chosen depends on the project requirements, accessibility, and structural design considerations.
- Q:What are the different types of steel H-beam connections used in seismic design?
- Seismic design incorporates various types of steel H-beam connections to ensure structural stability and earthquake resistance. These connections facilitate the transfer of forces and loads between different structural members, such as beams and columns, while maintaining overall structural integrity. Some commonly used H-beam connections in seismic design include: 1. Welded Connections: These connections are widely utilized in seismic design due to their simplicity and effectiveness. Welding the H-beam flanges and web together creates a strong and rigid connection capable of withstanding axial and lateral forces, making it suitable for seismic applications. 2. Bolted Connections: This type of connection involves using high-strength bolts to join H-beam components. Bolted connections offer easy assembly and disassembly, which can be advantageous during construction or retrofitting. Proper bolt pre-tensioning is essential to ensure adequate strength and stiffness. 3. Extended End-Plate Connections: When greater resistance against lateral forces is required, extended end-plate connections are commonly used. In this connection type, the end-plate extends beyond the H-beam flanges and is bolted to the column or another beam. The extended end-plate provides additional rigidity and strength to withstand seismic forces. 4. Reduced Beam Section (RBS) Connections: RBS connections are specifically designed to dissipate earthquake energy and maintain overall structural integrity during seismic events. A portion of the H-beam flange is removed in this connection type, creating a weak section that yields and absorbs seismic forces, protecting the rest of the structure. RBS connections are frequently employed in moment-resisting frames to prevent brittle failures. 5. Seismic Shear Tabs: Seismic shear tabs are small steel plates welded to the H-beam flanges and connected to the supporting structure, such as columns or walls. These tabs enhance the shear capacity of the connection and aid in distributing lateral forces during earthquakes. Seismic shear tabs are often combined with other connection types to enhance the overall seismic performance of the structure. It is important to consider various factors, including the structural system, load requirements, and specific seismic design criteria, when selecting the appropriate H-beam connection type in seismic design. Structural engineers and designers carefully evaluate these factors to determine the most suitable connection type for each application, ensuring the safety and stability of the structure under seismic conditions.
- Q:How do steel H-beams perform in earthquake-prone regions?
- Steel H-beams are widely regarded as one of the most effective structural elements in earthquake-prone regions. The unique shape and composition of H-beams make them highly resistant to seismic forces, ensuring better performance during earthquakes compared to other building materials. Firstly, the H shape of these beams provides excellent strength and load-bearing capacity. The design distributes the weight evenly along the length of the beam, enabling it to withstand the lateral forces generated by earthquakes. This feature allows H-beams to resist bending and deformation, which is crucial for maintaining the structural integrity of a building during seismic events. Additionally, steel itself is a highly durable and flexible material. It exhibits exceptional tensile strength, allowing it to stretch and absorb the energy generated during an earthquake. This characteristic prevents the beams from fracturing or collapsing under the intense shaking and ground motion experienced in earthquake-prone regions. Moreover, steel H-beams can be fabricated with specific seismic design principles in mind. Engineers can incorporate strategies such as moment-resisting frames or base isolation systems, which further enhance the seismic performance of these beams. These design techniques help dissipate and redirect seismic forces away from the building, reducing the potential for structural damage. Furthermore, steel H-beams offer advantages in terms of construction speed and versatility. They can be prefabricated offsite and easily assembled on-site, saving time and resources during construction. This flexibility also allows for the creation of complex building designs, which can be crucial in areas with limited space or unique architectural requirements. In conclusion, steel H-beams are highly suitable for earthquake-prone regions due to their exceptional strength, flexibility, and adaptability. Their unique shape, material properties, and the ability to incorporate seismic design principles make them a reliable choice for ensuring the safety and resilience of structures in areas susceptible to seismic activity.
- Q:Can steel H-beams be used in agricultural or farming structures?
- Indeed, agricultural or farming structures can indeed utilize steel H-beams. These H-beams made of steel are frequently employed in construction for their remarkable strength-to-weight ratio, durability, and capacity to withstand substantial loads. Within the realm of agricultural or farming structures, such as barns, sheds, or storage buildings, steel H-beams can provide indispensable structural support and stability. They find utility in framing, roof trusses, and as columns and beams, effectively creating expansive spaces ideal for the safekeeping of equipment, livestock, or crops. Moreover, steel H-beams exhibit resistance against pests, fire, and decay, rendering them an immensely reliable choice for constructing agricultural structures that will endure for extended periods of time.
- Q:What are the considerations for selecting the appropriate size of steel H-beams?
- When choosing the right size of steel H-beams, there are several factors to consider. Firstly, the load capacity is crucial. This includes both the weight of the structure itself and any additional live loads. Accurately calculating the total load is essential to avoid overloading the H-beam. Secondly, the span length plays a significant role. Longer spans require larger and stronger H-beams for adequate support. Consulting structural engineering guidelines helps determine the maximum allowable span length for a specific H-beam size. Additionally, deflection should be taken into account. Excessive bending or flexing of the beam under load can compromise the integrity of the structure. By considering the load and span length, deflection calculations can be made to ensure the selected H-beam size provides sufficient stiffness. Cost is another important consideration. Larger and stronger H-beams tend to be more expensive. It is essential to find a balance between load requirements and the available budget to select the most cost-effective option that meets the structural needs. Availability and fabrication should also be considered. Checking with suppliers to ensure the desired H-beam size is readily available and easily obtained is crucial. If customization or specific fabrication processes are necessary, the ease and cost of these processes should also be taken into account. In conclusion, selecting the appropriate size of steel H-beams requires considering factors such as load capacity, span length, deflection, cost, availability, and fabrication. Taking all these factors into account ensures the project's structural integrity and efficiency.
- Q:How do steel H-beams contribute to the load-bearing capacity of a structure?
- Steel H-beams contribute to the load-bearing capacity of a structure through their unique design and material properties. The H-shaped cross-section of these beams provides a greater surface area compared to other structural shapes, which translates to increased strength and load-carrying capacity. The flanges, or top and bottom horizontal sections of the H-beam, are designed to resist bending and shear forces. They act as a platform to distribute the load evenly across the beam's length, ensuring efficient load transfer. The web, or vertical section, connects the flanges and provides additional rigidity and stability to the beam. Steel, being a strong and durable material, further enhances the load-bearing capacity of H-beams. It possesses high tensile and compressive strength, allowing the beams to withstand heavy loads and resist deformation. Additionally, steel has excellent resistance to fire, corrosion, and other environmental factors, ensuring the long-term structural integrity of the building. The versatility of H-beams is another factor contributing to their load-bearing capacity. They can be fabricated in various sizes and lengths, making them suitable for a wide range of applications and structural requirements. Moreover, H-beams can be easily joined together using welding or bolted connections, enabling the construction of complex and robust frameworks. In summary, steel H-beams contribute to the load-bearing capacity of a structure by providing a strong and efficient structural element. Their unique design, coupled with the strength and durability of steel, allows them to support heavy loads and ensure the overall stability and safety of the building.
- Q:How are steel H-beams different from other types of beams?
- Steel H-beams, also known as H-sections, are distinct from other types of beams due to their specific shape and structural properties. The main difference lies in their cross-sectional shape, which resembles the letter "H." This unique shape provides significant advantages over other beam types. Firstly, the H-beam's shape allows for a higher load-bearing capacity compared to other beams with similar weight. This is because the shape of the H-beam distributes the weight evenly along its length, maximizing its ability to withstand heavy loads. As a result, H-beams are widely used in construction projects that require strong and durable structural support, such as in the construction of high-rise buildings, bridges, and industrial facilities. Secondly, H-beams offer greater structural stability. The flanges, or top and bottom horizontal sections of the H-beam, provide resistance against bending and twisting forces. This characteristic makes H-beams more resistant to deformations and enables them to maintain their shape under heavy loads. Furthermore, the web, or vertical section of the H-beam, provides additional support and rigidity, ensuring the overall stability of the structure. Another key advantage of H-beams is their versatility. Due to their inherent strength and stability, H-beams can span longer distances without the need for intermediate supports. This allows for larger open spaces and more flexible architectural designs. Additionally, H-beams can be easily welded together to create longer beams, further expanding their application possibilities. Lastly, H-beams offer cost-effectiveness. Despite their robustness, H-beams are relatively lightweight compared to their load-bearing capacity. This reduces transportation costs and simplifies the installation process, making them a cost-effective choice for construction projects. In summary, steel H-beams differ from other types of beams due to their unique cross-sectional shape, which provides increased load-bearing capacity, structural stability, versatility, and cost-effectiveness. These characteristics make H-beams the preferred choice for various construction applications where strength, durability, and efficiency are crucial factors.
- Q:How do steel H-beams contribute to indoor air quality in buildings?
- Steel H-beams play a minimally direct role in contributing to indoor air quality in buildings. As load-bearing structural elements, H-beams are typically made from steel, which is an inert material that does not release any volatile organic compounds (VOCs) or harmful emissions. Unlike certain building materials such as wood or certain types of plastics, steel H-beams do not emit any pollutants or allergens into the indoor air. However, it is important to note that the overall indoor air quality of a building is influenced by a wide range of factors, including ventilation systems, building materials, furniture, and occupant activities. Steel H-beams indirectly contribute to a healthy indoor environment by providing a sturdy and durable framework for the building, allowing for proper ventilation and effective air circulation. Furthermore, steel H-beams are commonly used in construction projects due to their fire-resistant properties. In the event of a fire, steel does not release toxic gases or smoke that can compromise indoor air quality. This enhances the safety of the building occupants and minimizes the potential health risks associated with poor air quality during fire incidents. In conclusion, while steel H-beams themselves do not directly impact indoor air quality, they contribute to a healthier indoor environment through their non-emissive nature and fire-resistant properties. The overall indoor air quality is influenced by a combination of factors, and the use of steel H-beams helps create a safe and sustainable building structure that supports good air quality.
- Q:How do Steel H-Beams perform in seismic or high-wind conditions?
- Both seismic and high-wind conditions are situations where Steel H-Beams excel. These beams are specifically designed to endure the forces exerted during earthquakes and strong winds, making them the preferred option for structural applications in areas that are susceptible to such events. In seismic conditions, Steel H-Beams are highly effective due to their inherent strength and flexibility. Their H-shape design enhances their resistance against lateral forces, allowing them to distribute and dissipate the energy produced by earthquake vibrations. This minimizes damage to the overall structure and enhances the safety of the building and its occupants. Similarly, Steel H-Beams perform exceptionally well in high-wind conditions. Their structural properties, such as their high strength-to-weight ratio and rigidity, enable them to withstand strong wind loads. The H-Beams' shape efficiently transfers wind forces to the foundation, preventing excessive movement and ensuring structural stability. Furthermore, the performance of Steel H-Beams in seismic or high-wind conditions can be further improved through various methods. Reinforcing the beams with additional steel plates, using higher-grade steel, or implementing advanced connection details can all contribute to increased resilience and reliability. Overall, Steel H-Beams are a dependable choice for construction projects in areas prone to seismic or high-wind conditions. Their ability to withstand and dissipate forces generated by earthquakes or strong winds makes them an ideal structural element, guaranteeing the safety and durability of buildings in challenging environments.
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JIS Standard SS400 H beams with Good Quality 400mm-414mm
- Loading Port:
- Tianjin
- Payment Terms:
- TT or LC
- Min Order Qty:
- 100 m.t
- Supply Capability:
- 15000 m.t/month
OKorder Service Pledge
OKorder Financial Service
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