二维功能梯度Timoshenko梁的有限元动力分析

None Dhyai Hassan jawad Aljashaami, None Mohammed A Al-Shujairi, None Ameen M. Al Juboori, None Salwan Obaid Waheed Khafaji, None Mohammed Jawad Aubad
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引用次数: 1

摘要

本文对功能梯度梁进行了动力分析。根据Timoshenko梁理论定义的位移场,建立了梁的控制方程,并采用基于Hamilton原理的有限元方法进行求解。假定梁具有自由攀爬边界条件(F-C)。PL指数用于描述光束在横向和纵向上的特性分布。通过参数化研究,探讨了几种参数对梁的固有频率、振型和瞬态响应的影响。,分别为x轴和z轴的PL指数(nx和nz),以及弹性模量比(Eratio)。为了验证目前的结果和现有的数学公式,将一些发现与另一项研究进行了比较。一个好的协议被注意到了。结果表明,梁的响应对轴向PI的变化比轴向PI的变化更敏感。对于特定的设计要求,可以通过选择建议指标和模量比来调整梁的动力响应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic Analyses of Two-Dimensional Functionally Graded Timoshenko Beam using Finite element Method
In this work, dynamic analyses of a functionally graded beam are presented. The governing equations of the beam is found based on the displacement field defined by Timoshenko beam theory, then solved by using finite element method based on Hamilton’s principle. The beam is assumed to be free-clambed boundary condition (F-C). The PL index is used for describing the distribution of the beam properties in both transverse and longitudinal directions. A parametric study is accomplished to investigate effect of several parameters on the natural frequency, mode shapes and transient response of the beam., such as the PL indexes (nx and nz) for x and z axis, respectively, and the elasticity modulus ratio (Eratio). To valid the present results and current mathematical formulation, some of the findings are compared with another research. A good agreement is noticed. It is noted that the response of the beam is more sensitive to the variations of the PI in the longitudinal axes than that corresponding in the transverse one. For specific design requirements, the dynamic response of the beam can be adjusted by chose a proposal indexes and modulus ratios.
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