Stimulus-responsive shape memory materials: A review

Stimulus-responsive materials are able to response to a particular stimulus, such as, heat, chemical, and light. As such, they are smarter and more intelligent than ordinary materials. While in most stimulus-responsive materials, the result is limited to a change in their certain physical/chemical p...

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Bibliographic Details
Published inMaterials in engineering Vol. 33; pp. 577 - 640
Main Authors Sun, L., Huang, W.M., Ding, Z., Zhao, Y., Wang, C.C., Purnawali, H., Tang, C.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 2012
Subjects
A. Multi-materials
Chemical properties
Design engineering
Distortion
Doors
E. Mechanical
E. Thermal
Polymers
Shape memory
Shape memory alloys
A. Multi-materials
E. Thermal
E. Mechanical
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Abstract Stimulus-responsive materials are able to response to a particular stimulus, such as, heat, chemical, and light. As such, they are smarter and more intelligent than ordinary materials. While in most stimulus-responsive materials, the result is limited to a change in their certain physical/chemical properties, stimulus-responsive shape memory materials (SMMs) are able to recover their original shape, after being quasi-plastically distorted. SMMs are ideal for an integrated intelligent system, in which “The material is the machine” that can sense and then generate reactive motion as pre-programmed. This paper presents a brief review on the current progress in stimuli-responsive SMMs, from recent development in traditional shape memory alloys (SMAs) and shape memory polymers (SMPs) to newly emerged shape memory hybrids (SMHs), which open the door for ordinary people to design their own SMMs in a do-it-yourself (DIY) manner. The focus of this review is on twofold, namely phenomena, in particular those newly observed ones, and novel applications with great potential at present and in near future.
AbstractList Stimulus-responsive materials are able to response to a particular stimulus, such as, heat, chemical, and light. As such, they are smarter and more intelligent than ordinary materials. While in most stimulus-responsive materials, the result is limited to a change in their certain physical/chemical properties, stimulus-responsive shape memory materials (SMMs) are able to recover their original shape, after being quasi-plastically distorted. SMMs are ideal for an integrated intelligent system, in which "The material is the machine" that can sense and then generate reactive motion as pre-programmed. This paper presents a brief review on the current progress in stimuli-responsive SMMs, from recent development in traditional shape memory alloys (SMAs) and shape memory polymers (SMPs) to newly emerged shape memory hybrids (SMHs), which open the door for ordinary people to design their own SMMs in a do-it-yourself (DIY) manner. The focus of this review is on twofold, namely phenomena, in particular those newly observed ones, and novel applications with great potential at present and in near future.
Stimulus-responsive materials are able to response to a particular stimulus, such as, heat, chemical, and light. As such, they are smarter and more intelligent than ordinary materials. While in most stimulus-responsive materials, the result is limited to a change in their certain physical/chemical properties, stimulus-responsive shape memory materials (SMMs) are able to recover their original shape, after being quasi-plastically distorted. SMMs are ideal for an integrated intelligent system, in which “The material is the machine” that can sense and then generate reactive motion as pre-programmed. This paper presents a brief review on the current progress in stimuli-responsive SMMs, from recent development in traditional shape memory alloys (SMAs) and shape memory polymers (SMPs) to newly emerged shape memory hybrids (SMHs), which open the door for ordinary people to design their own SMMs in a do-it-yourself (DIY) manner. The focus of this review is on twofold, namely phenomena, in particular those newly observed ones, and novel applications with great potential at present and in near future.
Author Wang, C.C.
Tang, C.
Ding, Z.
Purnawali, H.
Sun, L.
Huang, W.M.
Zhao, Y.
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  organization: School of Mechanical and Aerospace Engineering, Nanyang Technological University, Singapore 639798, Singapore
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Snippet Stimulus-responsive materials are able to response to a particular stimulus, such as, heat, chemical, and light. As such, they are smarter and more intelligent...
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SubjectTerms A. Multi-materials
Chemical properties
Design engineering
Distortion
Doors
E. Mechanical
E. Thermal
Polymers
Shape memory
Shape memory alloys
Title Stimulus-responsive shape memory materials: A review
URI https://dx.doi.org/10.1016/j.matdes.2011.04.065
https://www.proquest.com/docview/963844683
Volume 33
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