P-SV波传播问题的另一种对偶互易边界元：比较研究

IF 4.2 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Engineering Analysis with Boundary Elements Pub Date : 2025-03-30 DOI:10.1016/j.enganabound.2025.106238

Pouya Kavandi , Mehdi Panji , Navid Ganjian , Jafar Asgari Marnani

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引用次数: 0

摘要

本文介绍了一种双互易边界元方法，用于分析垂直传播的入射P-SV波的瞬态散射。利用静态基本解和适当的预测运算，将平衡方程的域惯性积分转化为边界积分方程。通过将自由场位移的影响纳入方程，实现了积分方程的可计算格式。在对该公式进行编码后，通过各种波散射问题（如封闭圆孔、半圆凹陷和双峰丘）来评估所提出技术的准确性和效率，这些问题都暴露在垂直入射的P-SV波中。与文献中已有的全平面时域边界元技术进行了广泛的比较，重点是精度和计算时间。研究结果表明，尽管双互易模型的内部点的复杂性和必要性，但它比传统的全平面时域方法更有优势，因为它大大减少了分析时间。

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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An alternative dual reciprocity BEM for P-SV wave propagation problems: A comparative study

This research introduces a dual reciprocity boundary element method (BEM) designed to analyze the transient scattering of vertically travelling incident P-SV waves. By using static fundamental solutions and appropriate predictor operations, the domain inertia integrals from the equilibrium equation were transformed into boundary integral equations. The computable format of the integral equations was achieved by incorporating the effects of free-field displacements into the equations. After coding the formulation, the proposed technique's accuracy and efficiency were assessed through various wave scattering problems, such as an encased round hole, a half-circle depression, and a double-peaked mound, all exposed to vertically incoming P-SV waves. An extensive comparison was conducted with the full-plane time-domain boundary element technique available in the literature, focusing on accuracy and computation time. The findings indicated that despite the complexity and necessity for interior points in dual reciprocity models, it is more advantageous than the traditional full-plane time-domain approach, as it substantially reduces analysis time.

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来源期刊

Engineering Analysis with Boundary Elements 工程技术-工程：综合

CiteScore

5.50

自引率

18.20%

发文量

368

审稿时长

56 days

期刊介绍： This journal is specifically dedicated to the dissemination of the latest developments of new engineering analysis techniques using boundary elements and other mesh reduction methods. Boundary element (BEM) and mesh reduction methods (MRM) are very active areas of research with the techniques being applied to solve increasingly complex problems. The journal stresses the importance of these applications as well as their computational aspects, reliability and robustness. The main criteria for publication will be the originality of the work being reported, its potential usefulness and applications of the methods to new fields. In addition to regular issues, the journal publishes a series of special issues dealing with specific areas of current research. The journal has, for many years, provided a channel of communication between academics and industrial researchers working in mesh reduction methods Fields Covered: • Boundary Element Methods (BEM) • Mesh Reduction Methods (MRM) • Meshless Methods • Integral Equations • Applications of BEM/MRM in Engineering • Numerical Methods related to BEM/MRM • Computational Techniques • Combination of Different Methods • Advanced Formulations.