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Lateral-Torsional Buckling of Non-Prismatic I-Beams Using FEM Approach
Essential steel components with variable cross-section are fabricated from welded plates, which are primarily employed for the growth of the construction industry in beams according to the stress and stiffness requirements of the structure. Lateral-torsional buckling, in which the beam experiences non-uniform twisting and buckling about its weaker axis, is one of the most common failure modes. This dissertation focuses primarily on the lateral-torsional buckle of non-prismatic I-beams. The development of differential equations for deformation analysis of the non-prismatic beam. ANSYS results and deformation equation results are compared to validate the methodology. Using ANSYS, the lateral torsional buckling of a non-prismatic I-beam section with uniformly distributed load is analyzed. In finite element analyses, the solid element approach is used to determine the lateral buckling load for various cross-sections (β = 0.1 to 1.0) by analyzing their behavior. In addition, a stiffener is used to prevent lateral buckling, and the results are compared to a model without stiffeners.
Lateral-Torsional Buckling of Non-Prismatic I-Beams Using FEM Approach
Essential steel components with variable cross-section are fabricated from welded plates, which are primarily employed for the growth of the construction industry in beams according to the stress and stiffness requirements of the structure. Lateral-torsional buckling, in which the beam experiences non-uniform twisting and buckling about its weaker axis, is one of the most common failure modes. This dissertation focuses primarily on the lateral-torsional buckle of non-prismatic I-beams. The development of differential equations for deformation analysis of the non-prismatic beam. ANSYS results and deformation equation results are compared to validate the methodology. Using ANSYS, the lateral torsional buckling of a non-prismatic I-beam section with uniformly distributed load is analyzed. In finite element analyses, the solid element approach is used to determine the lateral buckling load for various cross-sections (β = 0.1 to 1.0) by analyzing their behavior. In addition, a stiffener is used to prevent lateral buckling, and the results are compared to a model without stiffeners.
Lateral-Torsional Buckling of Non-Prismatic I-Beams Using FEM Approach
MARIAPPAN, Senthilpandian (author) / SOMASUNDARAM, Karthiyaini (author) / MUTHUSAMY, Shanmugasundaram (author) / SIVASUBRAMANI, Deepa Nivethika (author) / SUPRAKASH, Adapala Sunny (author) / KOTHANDAPANI, Karthikeyan (author)
2023-08-25
Materials Science ; Vol. 29 No. 3 (2023); 397-402 ; 2029-7289 ; 1392-1320
Article (Journal)
Electronic Resource
English
DDC:
690
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