Civil & Structural Engineering |
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Nonlinear dynamic buckling of stiffened plates under in-plane impact load |
ZHANG Tao, LIU Tu-guang, ZHAO Yao, LUO Jia-zhi |
College of Traffic and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China |
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Abstract This paper presents a simple solution of the dynamic buckling of stiffened plates under in-plane impact loading. Based on large deflection theory, a discretely stiffened plate model has been used. The tangential stresses of stiffeners and in-plane displacement are neglected. Appling the Hamilton\'s principle, the motion equations of stiffened plates are obtained. The deflection of the plate is taken as Fourier series, and using Galerkin method the discrete equations can be deduced, which can be solved easily by Runge-Kutta method. The dynamic buckling loads of the stiffened plates are obtained form Budiansky-Roth criterion.
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Received: 21 April 2003
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