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FROM:
M. Anbarasu and S. Sukumar (Department of Civil Engineering, Government College of Engineering, Salem - 636 011, Tamilnadu, India),
“Local/Distortional/Global buckling mode interaction on thin walled lipped channel columns”, Latin American Journal of Solids and Structures, Vol. 11, No. 8, Rio de Janeiro, December 2014, http://dx.doi.org/10.1590/S1679-78252014000800005
ABSTRACT: The buckling behaviour of pin ended cold-formed steel lipped channel columns affected by local / distortional / global buckling mode interaction under axial loading is simulated by using finite element software ABAQUS, and the results are compared with the test results available in the literature. The comparisons show that the proper analysis model can simulate the buckling behaviour and ultimate capacity of cold-formed steel columns. Then a parametric analysis is carried out for 15 column geometries of 3 yield stress values of different dimension, thickness and lengths. The cross sectional dimensions and length of the specimen have been chosen such that to have almost equal local, distortional and global critical buckling stresses by using the CUFSM software. The selected sections also satisfied the limitations given for pre-qualified sections in Direct Strength Method (DSM). After comparing the FEM column ultimate loads with the estimates predicted by the current Direct Strength Method (DSM) design curves against local, distortional and global failures, which clearly shows that they lead to inaccurate and often very unsafe ultimate load estimates. At the end, a design recommendation is made for current design practice of evaluating the ultimate strength of the lipped channel columns.
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