structural information of H beam
| Product Name | H Beam & I BEAM |
| Material | GB: Q195.Q215.Q235. Q345. L175.L210. L245. L320. L360- L555ASTM A53: GR A. GR B. GR CEN: S275, S275JR, S355JRH, S355J2H |
| Flange Thickness | 4.5-35mm |
| Flange Width | 100-1000mm |
| Web Thickness | 4.5-70mm |
| Web Width | 100-450mm |
| Length | 5.8m,6m,9m,11.8m,12m or as your requirement |
| Payment term | T/T, LC |
| MOQ | 1 TON |
| Certificate | API 5L PSL1 / PSL2. API 5CT.ISO 9001-2008 |
| Surface | Fusion bond Epoxy coating. Coal Tar Epoxy. Polyamide Epoxy.3PE.3PP |
| Delivery Time | 10-20 days |
| Package | Sea standard packing |
Cross-section shape: H beam gets its name from its cross-section shape, which resembles the letter “H”. The two parallel flanges are connected by a central web, which gives the beam its strength and rigidity.
Designation: H beams are designated according to their depth, width, and weight per meter. For example, an H beam with a depth of 300 mm, flange width of 150 mm, and weight per meter of 36 kg would be specified as “H300x150x36″.
Uses: H beams are used in a wide range of applications, including construction, manufacturing, and infrastructure projects. They are commonly used as support structures for buildings, bridges, and other structures that require high load-bearing capacity.
Manufacturing: H beams are typically manufactured by hot rolling, which involves heating a steel billet until it becomes malleable and then rolling it into the desired shape. The central web and flanges are shaped using a series of rollers and molds, which can be adjusted to create beams of different sizes and shapes.
Material grades: H beams can be made from a variety of materials, including carbon steel, stainless steel, and aluminum. The choice of material will depend on factors such as the required strength, durability, and corrosion resistance.
Standard specifications: H beams are manufactured to a variety of international standards, including ASTM A36, EN 10025-2, and JIS G 3101. These standards specify the dimensions, tolerances, and mechanical properties of H beams to ensure that they are safe and reliable for use in their intended applications.
In summary, H beams are a versatile and widely used type of structural steel that offer high strength and load-bearing capacity. They are available in a range of sizes and can be made from a variety of materials to suit different applications. When selecting H beams, it is important to consider factors such as the required strength, load-bearing capacity, and corrosion resistance, as well as the applicable international standards and specifications.
