Kresling origami derived structures and inspired mechanical metamaterial

IF 3.7 3区 材料科学 Q1 INSTRUMENTS & INSTRUMENTATION Smart Materials and Structures Pub Date : 2024-06-26 DOI:10.1088/1361-665x/ad5a5a
Xiaolei Wang, Haibo Qu, Kai Zhao, Xiao Yang and Sheng Guo
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Abstract

Origami has attracted more and more attention due to its exotic mechanical properties, and the inspired metamaterials are also popular. However, the main focus of current research is on existing origami patterns and properties, although new origami patterns or results that expand on existing origami patterns are gradually emerging. In this paper, we summarize a series of derived structures of the Kresling origami, demonstrating more stable states and richer structural forms. At the same time, a point-searching method is proposed along the ideas of the truss model, which is effective for irregular stable states of these derived structures. On this basis, we create an origami-inspired mechanical metamaterial with foldable property and high load-bearing capacity, fabricate the prototype, and validate its performance through experiments. These works make important contributions for promoting the Kresling origami and origami-inspired metamaterials.
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克瑞斯林折纸衍生结构和灵感机械超材料
折纸因其奇特的机械特性吸引了越来越多的关注,受其启发的超材料也很受欢迎。然而,尽管新的折纸图案或在现有折纸图案基础上扩展的成果逐渐涌现,但目前的研究主要集中在现有的折纸图案和特性上。本文总结了克瑞斯林折纸的一系列衍生结构,展示了更稳定的状态和更丰富的结构形式。同时,根据桁架模型的思想提出了一种寻点方法,这种方法对这些衍生结构的不规则稳定状态很有效。在此基础上,我们创造了一种具有可折叠特性和高承载能力的受折纸启发的机械超材料,并制作了原型,通过实验验证了其性能。这些工作为推广克瑞斯林折纸和受折纸启发的超材料做出了重要贡献。
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来源期刊
Smart Materials and Structures
Smart Materials and Structures 工程技术-材料科学:综合
CiteScore
7.50
自引率
12.20%
发文量
317
审稿时长
3 months
期刊介绍: Smart Materials and Structures (SMS) is a multi-disciplinary engineering journal that explores the creation and utilization of novel forms of transduction. It is a leading journal in the area of smart materials and structures, publishing the most important results from different regions of the world, largely from Asia, Europe and North America. The results may be as disparate as the development of new materials and active composite systems, derived using theoretical predictions to complex structural systems, which generate new capabilities by incorporating enabling new smart material transducers. The theoretical predictions are usually accompanied with experimental verification, characterizing the performance of new structures and devices. These systems are examined from the nanoscale to the macroscopic. SMS has a Board of Associate Editors who are specialists in a multitude of areas, ensuring that reviews are fast, fair and performed by experts in all sub-disciplines of smart materials, systems and structures. A smart material is defined as any material that is capable of being controlled such that its response and properties change under a stimulus. A smart structure or system is capable of reacting to stimuli or the environment in a prescribed manner. SMS is committed to understanding, expanding and dissemination of knowledge in this subject matter.
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