Buckling analysis of nanobeams with exponentially varying stiffness by differential quadrature method  被引量:1

Buckling analysis of nanobeams with exponentially varying stiffness by differential quadrature method

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作  者:S Chakraverty Laxmi Behera 

机构地区:[1]Department of Mathematics, National Institute of Technology Rourkela

出  处:《Chinese Physics B》2017年第7期218-227,共10页中国物理B(英文版)

摘  要:We present the application of differential quadrature(DQ) method for the buckling analysis of nanobeams with exponentially varying stiffness based on four different beam theories of Euler-Bernoulli, Timoshenko, Reddy, and Levison.The formulation is based on the nonlocal elasticity theory of Eringen. New results are presented for the guided and simply supported guided boundary conditions. Numerical results are obtained to investigate the effects of the nonlocal parameter,length-to-height ratio, boundary condition, and nonuniform parameter on the critical buckling load parameter. It is observed that the critical buckling load decreases with increase in the nonlocal parameter while the critical buckling load parameter increases with increase in the length-to-height ratio.We present the application of differential quadrature(DQ) method for the buckling analysis of nanobeams with exponentially varying stiffness based on four different beam theories of Euler-Bernoulli, Timoshenko, Reddy, and Levison.The formulation is based on the nonlocal elasticity theory of Eringen. New results are presented for the guided and simply supported guided boundary conditions. Numerical results are obtained to investigate the effects of the nonlocal parameter,length-to-height ratio, boundary condition, and nonuniform parameter on the critical buckling load parameter. It is observed that the critical buckling load decreases with increase in the nonlocal parameter while the critical buckling load parameter increases with increase in the length-to-height ratio.

关 键 词:differential quadrature method exponentially varying stiffness different beam theories 

分 类 号:O344.1[理学—固体力学]

 

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