用微分正交单元法分析弯曲梁的非线性前后屈曲

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
M. Zare, A. Asnafi
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引用次数: 2

摘要

本文研究了考虑剪切变形、旋转惯性和大变形引起的几何非线性影响的弯曲梁的面内弹性稳定性,包括屈曲前后分析。首先,推导了控制非线性运动方程。采用微分正交元法(DQEM)进行了静力分析和动力分析,这是一种新的快速求解线性和非线性微分方程的有效数值方法。首先,将该方法应用于平衡方程,得到一个利用弧长策略求解的非线性代数方程组。其次,利用静力部分的结果,线性化动力学运动微分方程及其相应的边界条件和连续性条件;在不损失一般性的情况下,考虑了集中荷载作用下的夹紧-夹紧弯曲梁,在整个方法中获得了梁的屈曲载荷、固有频率和模态振型。为了验证所提出的方法,采用有限元模拟对梁进行了建模。计算结果非常吻合,表明所提出的方法在预测梁的屈曲前后行为方面是准确的。调查还包括对影响问题动力行为的曲率参数的检查。结果表明,屈曲载荷的取值完全受梁曲率的影响;此外,由于屈曲后纵向刚度的急剧变化,对称模态振型的变化大于预期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Nonlinear pre and post-buckled analysis of curved beams using differential quadrature element method

Nonlinear pre and post-buckled analysis of curved beams using differential quadrature element method

This paper studied the in-plane elastic stability including pre and post-buckling analysis of curved beams considering the effects of shear deformations, rotary inertia, and the geometric nonlinearity due to large deformations. Firstly, the governing nonlinear equations of motion were derived. The problem was solved performing both the static and dynamic analysis using the numerical method of differential quadrature element method (DQEM) which is a new and efficient numerical method for rapidly solving linear and nonlinear differential equations. Firstly, the method was applied to the equilibrium equations, leading to a nonlinear algebraic system of equations that would be solved utilizing an arc length strategy. Secondly, the results of the static part were employed to linearize the dynamic differential equations of motion and their corresponding boundary and continuity conditions. Without any loss of generality, a clamped-clamped curved beam under a concentrated load was considered to obtain the buckling loads, natural frequencies, and mode shapes of the beam throughout the method. To validate the proposed method, the beam was modeled using a finite element simulation. A great agreement between the results was seen that showed the accuracy of the proposed method in predicting the pre and post-buckling behavior of the beam. The investigation also included an examination of the curvature parameter influencing the dynamic behavior of the problem. It was shown that the values of buckling loads were completely influenced by the curvature of the beam; also, due to the sharp change of longitudinal stiffness after bucking, the symmetric mode shapes changed more than it was expected.

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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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