设计充气辅助膜的颈部和皱纹

arXiv - PHYS - Pattern Formation and Solitons Pub Date : 2024-06-19 DOI:arxiv-2406.13442

Sairam Pamulaparthi Venkata, Valentina Balbi, Michel Destrade, Giuseppe Zurlo

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摘要

本文介绍了可充气、功能分级的磁性膜产生皱纹和颈部的潜力。我们在轴对称膜的理想位置获得了弹性不稳定性，在方形膜中获得了具有规定模式的弹性不稳定性。首先，我们使用分析方法获得了一系列普遍结果，这些结果深入揭示了轴对称充气膜中皱纹和颈部的形成。例如，我们通过分析证明，在轴对称受压膜中，颈部和皱纹可能永远不会重叠。其次，我们将松弛应变能张力场理论应用于有限元求解器（COMSOL）。通过调整材料模量的空间同质性，我们证实了我们的普遍结果，以平均方式描述了起皱的发生，并在所需位置产生了非三维不稳定性。这项关于按需变形或波纹膜的研究有望应用于盲文阅读和触觉技术。

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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Designing necks and wrinkles in inflated auxetic membranes

This article presents the potentiality of inflatable, functionally-graded auxetic membranes to produce wrinkles and necks. We obtain elastic instabilities at desired locations in axisymmetric membranes and with prescribed patterns in square membranes. First, we use an analytical approach to obtain a series of universal results providing insights into the formation of wrinkles and necks in inflated, axisymmetric membranes. For example, we prove analytically that necks and wrinkles may never overlap in pressurized, axially symmetric membranes. Second, we implement the relaxed strain energy of tension field theory into a Finite Element solver (COMSOL). By tuning spatial inhomogeneities of the material moduli, we corroborate our universal results, describe the onset of wrinkling in an averaged way, and also generate non-trivial instabilities at desired locations. This study on membranes with morphing or corrugation on demand has potential applications in Braille reading and haptics.

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arXiv - PHYS - Pattern Formation and Solitons

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