Characterising the Self-opening Behaviour of Single Creased Kapton Polyimide Films

2021 Moratuwa Engineering Research Conference (MERCon) Pub Date : 2021-07-27 DOI:10.1109/MERCon52712.2021.9525790

Sutharsanan Navaratnarajah, Chermila Piyumi, Chinthaka Mallikarachchi

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Abstract

Use of thin folded membranes for deployable structures are becoming increasingly popular especially in aerospace applications such as a deployable solar array, sun shields, and solar sails. The folding and compaction process of thin membranes, which introduces permanent, nonrecoverable, localized plastic deformation, changes the geometric shape and material properties. The underlying mechanics in the deployment of creased membrane structures are self-opening and then forced-opening beyond a stable stress-free state. The focus of the previous studies was limited to the characterisation of crease behaviour during force opening. This paper presents an experimental study to characterise the crease mechanics of a single creased membrane during self-opening behaviour which is crucial in the design of gossamer structures. A simple analytical study was performed to predict the moment-rotation response of the crease and hence shows a good qualitative agreement with physical experiment results. It is shown that the moment-rotation response of a single crease can be idealized to a linear rotational spring in virtual simulation and the spring stiffness depends on the thickness of the membrane.

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单折痕卡普顿聚酰亚胺薄膜自开特性的表征

折叠薄膜用于可展开结构正变得越来越流行，特别是在航空航天应用中，如可展开太阳能电池阵列、遮阳罩和太阳帆。薄膜的折叠和压实过程引入了永久的、不可恢复的、局部的塑性变形，改变了几何形状和材料性能。折痕膜结构展开的基本机制是自打开，然后在稳定的无应力状态下被迫打开。先前研究的重点仅限于力开时折痕行为的表征。本文提出了一项实验研究，以表征在游丝结构设计中至关重要的自打开行为中的单个折痕膜的折痕力学。对折痕的矩转响应进行了简单的分析研究，结果与物理实验结果定性一致。结果表明，在虚拟仿真中，单个折痕的矩转响应可以理想化为线性旋转弹簧，且弹簧刚度与薄膜厚度有关。

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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2021 Moratuwa Engineering Research Conference (MERCon)

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