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Buckling behavior of pultruded monosymmetric members
- Authors
- Lee, S.S.; Yoon, S.J.; Cho, S.K.; Park, J.M.
- Issue Date
- 2005
- Publisher
- Trans Tech Publications Ltd
- Keywords
- Beam theory; Elastic coupling effects; Flexural-torsional buckling; Monosymmetric; Pultruded FRP; Ritz method; T-shapes; Thin-walled member
- Citation
- Key Engineering Materials, v.297-300 II, pp.1259 - 1264
- Journal Title
- Key Engineering Materials
- Volume
- 297-300 II
- Start Page
- 1259
- End Page
- 1264
- ISSN
- 1013-9826
- Abstract
- Pultruded fiber reinforced polymer (FRP) structural members have been used in various civil engineering applications. T-shapes are commonly used for chord members in trusses and for bracing members. In these cases, T-shapes are mainly subjected to axial forces, and stability of a member is one of the major concerns in the design. Due to the monosymmetry existing in the cross-section of T-shapes, T-shapes are likely to buckle in a flexural-torsional mode. An energy solution, using the Ritz method, to the buckling problem of a pulturuded T-shape under uniform compression is derived based on a composite thin-walled beam theory developed by Bauld and Tzeng. The solution accounts for the bending-twisting and bending-extension coupling effects. The derived energy solutions are compared to the experimental results of buckling tests conducted on seventeen pultruded T-shapes. It is found that the ratios of the experimental to analytical results are in the range of 1.00 to 1.32.
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