Finite element modelling of cold-formed steel beams under local buckling or combined local/distortional buckling |
| |
Authors: | Mohammad Reza Haidarali David A. Nethercot |
| |
Affiliation: | Civil and Environmental Engineering Department, Imperial College London, London SW7 2AZ, United Kingdom |
| |
Abstract: | The finite element (FE) method is capable of solving the complex interactive buckling of cold-formed steel beams allowing for all important governing features such as geometrical imperfections, material nonlinearity, postbuckling, etc.; this is unlikely to be achieved by analytical methods. In this paper, two series of finite element models for buckling behaviour of laterally-restrained cold-formed steel Z-section beams have been developed with special reference to material and geometrical nonlinearities: one to allow for the possibility of combined local/distortional buckling and the other to allow for local buckling only. Four-point bending tests carried out by previous researchers have been used to verify the FE models. A simplified configuration of the test setup has been modelled in ABAQUS. In the local buckling FE models, distortional buckling has been restricted in the member using translational springs applied to the lip/flange corner of the beam. Predictions of load carrying capacity and deformed shapes exhibit excellent agreement with both the results from the more extensive models and laboratory tests. Further papers will exploit the developed FE models to investigate the different forms of buckling that occur in laterally-restrained cold-formed steel beams i.e. local, distortional and combined local/distortional. |
| |
Keywords: | Buckling Cold-formed steel Distortional buckling Finite element analysis Local buckling Steel structures Ultimate strength |
本文献已被 ScienceDirect 等数据库收录! |