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Theoretical analysis on elastic buckling of nanobeams based on stress-driven nonlocal integral model 被引量:2

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摘要 Several studies indicate that Eringen's nonlocal model may lead to some inconsistencies for both Euler-Bernoulli and Timoshenko beams, such as cantilever beams subjected to an end point force and fixed-fixed beams subjected a uniform distributed load. In this paper, the elastic buckling behavior of nanobeams, including both EulerBernoulli and Timoshenko beams, is investigated on the basis of a stress-driven nonlocal integral model. The constitutive equations are the Fredholm-type integral equations of the first kind, which can be transformed to the Volterra integral equations of the first kind. With the application of the Laplace transformation, the general solutions of the deflections and bending moments for the Euler-Bernoulli and Timoshenko beams as well as the rotation and shear force for the Timoshenko beams are obtained explicitly with several unknown constants. Considering the boundary conditions and extra constitutive constraints, the characteristic equations are obtained explicitly for the Euler-Bernoulli and Timoshenko beams under different boundary conditions, from which one can determine the critical buckling loads of nanobeams. The effects of the nonlocal parameters and buckling order on the buckling loads of nanobeams are studied numerically, and a consistent toughening effect is obtained.
出处 《Applied Mathematics and Mechanics(English Edition)》 SCIE EI CSCD 2020年第2期207-232,共26页 应用数学和力学(英文版)
基金 Project supported by the National Natural Science Foundation of China(No.11672131) the Research Fund of State Key Laboratory of Mechanics and Control of Mechanical Structures of China(No.MCMS-0217G02) the Priority Academic Program Development of Jiangsu Higher Education Institutions of China(No.11672131)。
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