考虑轴向压缩和自重的一维振动柱的优化设计

arXiv - PHYS - Classical Physics Pub Date : 2024-04-23 DOI:arxiv-2404.15536

Federico Ferrari

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引用次数: 0

摘要

我们研究了轴向压缩对柱子优化设计的影响，以实现基振频率的最大化。轴向压缩可能是由于柱顶端的力，也可能是由于沿柱子轴向分布的荷载，它们可能单独作用，也可能同时作用。我们讨论了这些作用对优化条件的影响，并展示了最佳梁设计和相应的频率增益如何随着压缩程度的变化而发生剧烈变化。我们还讨论了频率优化对尖端（$\lambda_{P}$）和分布式（$\lambda_{Q}$）载荷的临界载荷系数的间接影响。最后，我们提供了以三重（$\lambda_{P}$, $\lambda_{Q}$, $\Omega^{2}$）屈曲和动力学特征值为参数的优化设计问题的一些定量结果。

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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Optimal sizing of 1D vibrating columns accounting for axial compression and self-weight

We investigate the effect of axial compression on the optimal design of columns, for the maximization of the fundamental vibration frequency. The compression may be due to a force at the columns' tip or to a load distributed along its axis, which may act either independently or simultaneously. We discuss the influence of these contributions on the optimality conditions, and show how the optimal beam design, and the corresponding frequency gain drastically change with the level of compression. We also discuss the indirect effect of frequency optimization on the critical load factors for the tip ($\lambda_{P}$) and distributed ($\lambda_{Q}$) loads. Finally, we provide some quantitative results for the optimal design problem parametrized by the triple ($\lambda_{P}$, $\lambda_{Q}$, $\Omega^{2}$) of buckling and dynamic eigenvalues.

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arXiv - PHYS - Classical Physics

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