昆虫翅膀曲面像素翼模型的性能评价

IF 0.4 Q4 ENGINEERING, MULTIDISCIPLINARY Journal of Advanced Simulation in Science and Engineering Pub Date : 2021-01-01 DOI:10.15748/jasse.8.163

M. Onishi, D. Ishihara

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引用次数: 2

摘要

．昆虫扇动翅膀的弯曲变形是由气动力引起的。由于摆弧度可以改善纳米扑翼飞行器的气动性能，因此研究摆弧度的被动机理具有重要意义。为了提高计算效率，提出了采用壳单元组成的结构化网格像素翼模型，该模型可以模拟流固耦合引起的弧度变形。在本研究中，当像素模型分辨率发生变化时，评估了像素机翼模型的性能。最小像素模型分辨率的确定使其能够保持与实际昆虫相比足够大的倾角。此外，还发现利用由根脉像元和翼膜像元厚度给出的机翼弦向弯曲刚度可以有效地改变像素机翼模型的弯曲。

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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Performance evaluation of the pixel wing model for the insect wing's camber

. In insect flapping wings, the camber deformation is caused by the aerodynamic forces. Since the camber will improve the aerodynamic performance of Flapping Wing Nano Air Vehicles (FWNAVs), it is important to elucidate the passive mechanism of the cambering. The pixel wing model consisting of a structured mesh using shell elements that can simulate the camber deformation caused by the fluid–structure interaction has been proposed for the purpose of computational efficiency. In this study, the performance of the pixel wing model is evaluated as the pixel model resolution is changed. The minimum pixel model resolution is determined such that it can keep enough magnitude of camber compared to actual insects. Fur-thermore, it is found that the cambering of the pixel wing model can be effectively changed using the wing’s chord-wise flexural stiffness given by the root vein pixels and the thickness of the wing membrane pixels.

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Journal of Advanced Simulation in Science and Engineering ENGINEERING, MULTIDISCIPLINARY-

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