Tunable thermally bistable multi-material structure

双稳态 形状记忆合金 材料科学 刚度 热的 执行机构 智能材料 非线性系统 变形(气象学) 结构工程 软化 计算机科学 纳米技术 光电子学 复合材料 工程类 物理 热力学 量子力学 人工智能
作者
H. Niknam,Abdolhamid Akbarzadeh,Daniel Therriault,Sampada Bodkhe
出处
期刊:Applied Materials Today [Elsevier BV]
卷期号:28: 101529-101529 被引量:18
标识
DOI:10.1016/j.apmt.2022.101529
摘要

• A bistable structure is designed and prototyped to respond to multi-physical stimuli. • Bimaterial thermally bistable structure can mimic the behavior of SMAs/SMPs. • Thermally bistable structure restores shape when heated to triggering temperature. • The triggering temperature can be tailored by changing the design parameters. • The proposed structure can be tessellated in different directions. The shape memory effect in polymers and alloys enables programming the response of structures via temperature changes; however, the number of materials exhibiting such memory behavior is limited, their response to thermal load is considerably slow, and programming is required to guide the deformation of shape memory materials. The recently revived structural bistability concept offers a potential to design and program reconfigurable structures. In this study, we introduce a thermally bistable structure that displays an abrupt shape memory effect along with snap-through instability behavior. We demonstrate the effect of the wall stiffness of the structure on the bistability of a mechanically bistable element and its nonlinear response. We utilize the thermal softening behavior of two distinct polymers to design a bistable bimaterial structure that restores its original shape when the environment reaches a specific temperature, referred to as triggering temperature . The results reveal that the triggering temperature can change within a range of 30 0 C by changing the width ratio of the stiff material at the wall from 0 to 0.5 for specific material composition. The proposed concept offers new opportunities to utilize tessellated bistable structures as self-sensing actuators and intelligent deployable structures since they can be designed to reconfigure in response to certain changes in temperature.
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