A General Simulation Method for Complex Deformation of Irregular-Shaped Origami Configurations

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-03 DOI:10.1007/s10338-023-00443-7
Zhaochen Dong, Yichao Zhu, Xu Guo
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Abstract

Most existing treatments for origami-folding simulations have focused on regular-shaped configurations. This article aims to introduce a general strategy for simulating and analyzing the deformation process of irregular shapes by means of computational capabilities nowadays. To better simulate origami deformation with folding orders, the concept of plane follow-up is introduced to achieve automated computer simulation of complex folding patterns, thereby avoiding intersection and penetration between planes. Based on the evaluation criteria such as the lowest storage energy with tightening and the fastest pace from tightening to unfolding, the optimal crease distribution patterns for four irregular (‘N’-, ‘T’-, ‘O’-, and ‘P’-shaped) origami configurations are then presented under five candidates. When the dimensions of the origami are fixed, it is discovered that simpler folding patterns lead to faster deformation of the origami configuration. When the folding complexity is fixed, higher strain energy results in more rapid origami expansion.

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不规则形状折纸结构复杂变形的通用模拟方法
现有的折纸折叠模拟方法大多集中在规则形状的构型上。本文旨在介绍一种利用当今计算能力模拟和分析不规则形状变形过程的通用策略。为了更好地模拟具有折叠顺序的折纸变形,本文引入了平面跟进的概念,以实现计算机对复杂折叠图案的自动模拟,从而避免平面之间的交叉和穿透。根据收紧时存储能量最小和从收紧到展开速度最快等评价标准,在五个候选方案下提出了四种不规则('N'形、'T'形、'O'形和'P'形)折纸构型的最佳折痕分布模式。在折纸尺寸固定的情况下,研究发现较简单的折叠模式能使折纸结构更快地变形。当折纸的复杂程度固定时,较高的应变能会使折纸膨胀得更快。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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