Meshfree Galerkin Method for a Rotating Non-Uniform Rayleigh Beam with Refinement of Radial Basis Functions

IF 1.5 Q3 MECHANICS
Vijay Panchore
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引用次数: 0

Abstract

The rotating Rayleigh beam problem is solved with meshfree method where the radial basis functions are explored. Numbers of basis functions have been used for meshfree methods which also include radial basis function. In this paper, the Gaussian radial basis function and multiquadrics radial basis functions are combined to get the new basis function which provides accuracy for higher natural frequencies. The radial basis functions satisfy the Kronecker delta property and it is easy to apply the essential boundary conditions. The Galerkin method is used for weak formulation. The matrices have been derived. The results are obtained for Gaussian radial basis function and new basis function. The results show more accurate values for fourth and fifth natural frequency with new basis function where only six nodes are used within the subdomain of trial and test function. The results are also obtained with conventional finite element method where forty, two node elements are considered. Also, the results are obtained for rotating Euler-Bernoulli beam to observe the difference in results with rotating Rayleigh beam.
基于径向基函数的旋转非均匀瑞利梁的无网格伽辽金方法
用无网格方法求解旋转瑞利光束问题,其中探讨了径向基函数。许多基函数已用于无网格方法,其中也包括径向基函数。本文将高斯径向基函数和二次曲面径向基函数相结合,得到了一种新的基函数,它能为更高的固有频率提供精度。径向基函数满足Kronecker delta性质,并且很容易应用本质边界条件。Galerkin方法用于弱公式。矩阵已经导出。得到了高斯径向基函数和新基函数的结果。结果显示,在新的基函数中,在试验和测试函数的子域中只使用了六个节点,第四和第五固有频率的值更准确。结果也用传统的有限元方法得到,其中考虑了四十二个节点单元。此外,还获得了旋转欧拉-伯努利光束的结果,以观察与旋转瑞利光束的结果的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.70
自引率
8.30%
发文量
0
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