A. Mohsen, M., M. Abbas, A., S. Saadoon, A. (2016). Effect of Loading Level and Span Length on Critical Buckling Load. Alustath, 16(1), 15-21.
Marwah A. Mohsen; Abdalnassre M. Abbas; Ahmed S. Saadoon. "Effect of Loading Level and Span Length on Critical Buckling Load". Alustath, 16, 1, 2016, 15-21.
A. Mohsen, M., M. Abbas, A., S. Saadoon, A. (2016). 'Effect of Loading Level and Span Length on Critical Buckling Load', Alustath, 16(1), pp. 15-21.
A. Mohsen, M., M. Abbas, A., S. Saadoon, A. Effect of Loading Level and Span Length on Critical Buckling Load. Alustath, 2016; 16(1): 15-21.

Effect of Loading Level and Span Length on Critical Buckling Load

Basrah Journal for Engineering Science
Article 1, Volume 16, Issue 1, June 2016, Pages 15-21    PDF (0 K)
Authors
Marwah A. Mohsen; Abdalnassre M. Abbas; Ahmed S. Saadoon
Abstract
An investigation was conducted to study the effect of
loading level with respect to shear center and span length on
lateral torsional buckling of steel I-section beams using linear
and nonlinear finite element analysis available in ANSYS
(version 12.0) computer program. The steel beams which have
been studied included prismatic beams and linearly web tapered beams with web tapering ratio of (0.5). The maximum
height of all beams was 300 mm with span length of 4, 6 and 8
m. The critical buckling loads for prismatic and linearly
tapered cantilever and simply supported beams subjected to
point load and uniformly distributed load were determined.
The results showed that the bottom flange loading gives a
buckling loads higher than that of the top flange loading with
percentage increases of 148% and 155% for the linear and
nonlinear analysis respectively for the prismatic beams. While
for the tapered beams, these percentages increases were 61%
and 67% respectively
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