Bending and buckling of nonlocal strain gradient elastic beams
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- 作者:Xiao-Jian Xua ; b ; Xuan-Cang Wanga ; Mu-Lian Zhenga ; zhengml@chd.edu.cn ; Zheng Maa
- 关键词:Bending ; Buckling ; Nonlocal strain gradient theory ; Boundary condition ; Weighted residual approach
- 刊名:Composite Structures
- 出版年:2017
- 出版时间:15 January 2017
- 年:2017
- 卷:160
- 期:Complete
- 页码:366-377
- 全文大小:614 K
- 卷排序:160
文摘
Featured by the two material length parameters in the nonlocal strain gradient theory, it is still unknown that what are the boundary conditions of nonlocal strain gradient beams, since the equations of motion and boundary conditions of these beam models appear in the same form as those of the classical ones. Based on the weighted residual approaches, this paper provides the boundary value problems of Euler–Bernoulli beams within the framework of the nonlocal strain gradient theory in conjunction with the von Kármán nonlinear geometric relation. The closed-form solutions for bending and buckling loads of nonlocal strain gradient beams are obtained. Numerical results show that the higher-order boundary conditions have no effect on the static bending deflection of beams for the cases studied. However, the higher-order boundary conditions and the material length parameters have a significant effect on the buckling loads. Finally, when the two material length parameters are the same, the buckling loads can not always reduce to the classical solutions, the findings of which violate our expectations. The results provided in this work are expected to be helpful for the applications of this theory to the analysis of engineering structures.