Structural A36 Steel Wide Flange H Beam Section w14x82
GNEE is an H-beam supplier with 18 years of production experience. The h type beam we provide is strictly produced in accordance with the standards, has passed the quality certification, can provide quality certificates, and accept third-party testing. We are always ready to help you with all your structural h beam needs.
We have S355JR h type beam, S275JR steel beam, S355J2 h beam steel structure, S355J0 h section beam, S355NL h section steel, S355ML structural steel beam, A36 w flange beam, A572GR50 w shape beam, A992 w shape structural steel and other materials in stock. At the same time, GNEE supports multi-specification and multi-brand H-beam customization. If you have customized needs for profiled steel, angle steel, and channel steel, please contact us!
W14x82 h section steel material characteristics
Chemical composition: A36 material belongs to carbon structural steel, with carbon content not exceeding 0.28%, silicon content not exceeding 0.4%, manganese content between 0.6%-0.9%, phosphorus and sulfur content controlled below 0.04% and 0.05% respectively.
Mechanical properties: yield strength not less than 250MPa, tensile strength between 400-550MPa, elongation usually greater than or equal to 20%, and good impact toughness, able to resist impact loads at low temperatures without brittle fracture.
W14x82 h shaped steel steel specifications
Size: The specific size of W14x82 steel is 36325713*21.7 (unit: mm), that is, the web height is about 363mm, the flange width is about 257mm, the web thickness is 13mm, and the flange thickness is 21.7mm.
Weight: The weight per meter is about 122kg.
W14x82 h section beam Application field
Construction field: It is often used in the main structure of large industrial plants, high-rise buildings and large-span buildings. As load-bearing structural components such as columns, beams, and trusses, it can withstand the weight of the building and external forces such as wind loads and earthquake loads to ensure the stability and safety of the building.
Bridge engineering: It is an ideal material for bridge construction. It can be used to manufacture structural parts such as the main beam and cross beam of the bridge. It can withstand the weight of the superstructure of the bridge and the loads of vehicles, pedestrians, etc., and can also adapt to the deformation requirements of the bridge under different environmental conditions.
Other fields: It can also be used in the field of machinery manufacturing as a supporting material for large-scale machinery and equipment; it can also be used in some structures such as brackets and foundation piles that require high structural strength and stability.


