Torsional checking is a process used to analyze the ability of a steel angle member to resist torsional forces, or twisting forces, that may act on it.
Torsional forces can cause significant damage to steel angle members, leading to structural failure. Torsional checking ensures that the member is able to withstand these forces and remain stable.
Torsional checking is typically performed using mathematical equations and calculations based on the properties of the steel angle member, such as its cross-sectional area and moment of inertia.
The main factors that affect torsional checking include the material properties of the steel, the geometry of the angle member, and the applied load or forces.
If torsional checking is not performed, the steel angle member may not be able to withstand torsional forces and could experience excessive deformation, leading to structural failure. This can result in safety hazards and costly repairs.