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Structural Steel

beam rolling

Understanding Beam Bending Stress: Formula and Calculation

nderstanding beam bending stress and its calculation is pivotal in structural engineering.

By comprehending the formulas and concepts behind bending stress, engineers can design beams that efficiently handle loads, ensuring the safety and reliability of structures.

The ability to analyze bending stress aids in optimizing beam designs and material usage, contributing to the overall integrity of engineered structures.

Top 5 Common H-beam Sizes and Size Chart

H Beam Size Chart

The size of H-beams can vary significantly depending on the manufacturer, standards, and the specific requirements of a construction project. H-beam sizes are typically classified by their depth (height of the web) and flange width. Here is a general overview… Read More »H Beam Size Chart

u channel bending machine

C Channel Bending Machine

Here we introduce two models of C/U Channel Bending Machines: PBH (best steel channel bending solutions) and PBA (best aluminum channel bending solutions), as well as the basic knowledge of channel bending and provide a C channel bending radius calculator.

beam rolling

PBH T-Beam Bending Machine

T-Beams, formed by longitudinally splitting a standard beam, can be efficiently bent using the PBH Section Bending Machine, serving a multitude of industrial applications.

The PBH Section Bending Machine excels in precision manufacturing, accurately producing rolled t-beams with specific tolerances and impressive repeatability. Our profile rolling machines grant you the flexibility to select the appropriate equipment and tooling dies, enabling the shaping of t-beams to your desired radius.


Beam Bending

There are two primary methods used in beam bending applications, informally known as the “easy way (I-Beams)” and the “hard way (H-Beams).” BIT section bending machines excels at both, that ensures even the most demanding beam forming projects are completed to industry-required guidelines.