![]() Partial factor requirement (safety factor): 39.2 / 1.4 = 28kN/m Overall stability requirement: 42.1 * 0.93 = 39.2kn/m How much can I-beam #25 bear when the span is 4m and the load is evenly distributed?įor #25 I-beam, W = 401.4cm 3, =210N/mm2, overall stability coefficient φb=0.93 I Beam Steel (14 Difference Analysis) How do I determine the load-bearing capacity of an I-beam? ![]() I Beamįor a detailed comparison of H-beams and I-beams, please refer to the following article. ![]() H-beams are commonly used in high-rise buildings, workshops, and other structures that require high load capacity and stable cross-sections.Īdditionally, they are widely used in ships, bridges, lifting and transportation equipment, brackets, equipment foundations, and foundation piles. The components of the H-beam are arranged at right angles, giving it superior resistance to bending, making it more cost-effective, easier to construct, and lighter in weight in all directions. It is a cost-effective and efficient type of structural steel, with a higher strength-to-weight ratio and optimized cross-sectional area distribution. The H-beam is an improved version of the I-beam and got its name from its H-shaped cross-section. I-beams are further categorized into two groups: regular I-beams and lightweight I-beams. An I-beam, also referred to as a Universal Beam or steel beam, is a type of structural steel with a distinctive ‘I’ shaped cross-section.
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