The structural efficiency of tapered steel section with perforation under lateral torsional buckling behaviour

Abstract: Purpose Tapered section can resist maximum stress at a single location while the stresses are considerably lower at the rest of the member; therefore, it could have higher structural efficiency compared to conventional section. It could also satisfy functional requirements while reducing weight and cost in many fields of civil construction. Perforation in the steel section also eases the integration of Mechanical and Electrical (M&E) services such as ventilation pipes and electrical cables within the struc… Show more

“…The opening layout with different opening arrangement and number of opening has affected the deformation of buckling and efficiency of the I-beam steel section vertical square web opening. Besides that, perforation size of 0.75 D has the highest structural efficiency, although it can withstand a smaller buckling load (De’nan et al , 2020). Nevertheless, the tapering ratio of 0.3 is the most efficient and an increment of percentage in structural efficiency is 114.36%.…”

Development of efficiency analysis for I-beam steel section with web opening via numerical method

“…The opening layout with different opening arrangement and number of opening has affected the deformation of buckling and efficiency of the I-beam steel section vertical square web opening. Besides that, perforation size of 0.75 D has the highest structural efficiency, although it can withstand a smaller buckling load (De’nan et al , 2020). Nevertheless, the tapering ratio of 0.3 is the most efficient and an increment of percentage in structural efficiency is 114.36%.…”

Development of efficiency analysis for I-beam steel section with web opening via numerical method