Lateral buckling analysis of thin-walled functionally graded open-section beams
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- 作者:Tan-Tien Nguyen tien.ntan@gmail.com ; Pham Toan Thang phamtoanthang1991@gmail.com ; Jaehong Lee ; jhlee@sejong.ac.kr
- 关键词:Thin-walled beam ; Function graded material ; Lateral buckling ; Mono-symmetric section
- 刊名:Composite Structures
- 出版年:2017
- 出版时间:15 January 2017
- 年:2017
- 卷:160
- 期:Complete
- 页码:952-963
- 全文大小:970 K
- 卷排序:160
文摘
Lateral buckling of thin-walled functionally graded (FG) open-section beams is studied, regarding mono-symmetric I- and channel-sections. The approach based on assumption that the volume fraction of particles varies through the wall thickness according to a power law. Governing buckling equations and a finite element method have been developed to formulate the problem. By means of Vlasov’s assumption, the theory accounts for warping of cross-section and all the structural coupling coming from anisotropy of material. The lateral buckling parameter and mechanism are obtained for thin-walled FG beams under central point load, uniformly distributed load, and moment gradient with several types of material distributions. In order to show the validity of proposed theory, as a special case, a numerical comparison is carried out with available results in literature. Moreover, effects of load height, gradual law, end-moment ratio and ceramic skin-core-skin thickness on the buckling capacity of a thin-walled FG open-section beam are also included in the analysis.