Metallic Mimosa pudica : A 3D biomimetic buckling structure made of metallic glasses

Metallic Mimosa pudica , a three-dimensional (3D) biomimetic structure made of metallic glass, is formed via laser patterning: Blooming, closing, and reversing of the metallic M. pudica can be controlled by an applied magnetic field or by manual reshaping. An array of laser-crystallized lines is wri...

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Veröffentlicht in:	Science advances 2022-08, Vol.8 (31), p.eabm7658-eabm7658
Hauptverfasser:	Li, Jin-Feng, Soldatov, Ivan-V., Tang, Xiao-Chang, Sun, Bo-Yang, Schäfer, Rudolf, Liu, Song-Ling, Yan, Yu-Qiang, Ke, Hai-Bo, Sun, Yong-Hao, Orava, Jiri, Bai, Hai-Yang
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creator	Li, Jin-Feng Soldatov, Ivan-V. Tang, Xiao-Chang Sun, Bo-Yang Schäfer, Rudolf Liu, Song-Ling Yan, Yu-Qiang Ke, Hai-Bo Sun, Yong-Hao Orava, Jiri Bai, Hai-Yang
description	Metallic Mimosa pudica , a three-dimensional (3D) biomimetic structure made of metallic glass, is formed via laser patterning: Blooming, closing, and reversing of the metallic M. pudica can be controlled by an applied magnetic field or by manual reshaping. An array of laser-crystallized lines is written in a metallic glass ribbon. Changes in density and/or elastic modulus due to laser patterning result in an appropriate size mismatch between the shrunken crystalline regions and the glassy matrix. The residual stress and elastic distortion energy make the composite material to buckle within the elastic limit and to obey the minimum elastic energy criterion. This work not only provides a programming route for constructing buckling structures of metallic glasses but also provides clues for the study of materials with automatic functions desired in robotics, electronic devices, and, especially, medical devices in the field of medicine, such as vessel scaffolds and vascular filters, which require contactless expansion and contraction functions. A 3D structure of metallic glass–crystal composite, formed by laser patterning, blooms and closes by magnetic force.
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A 3D structure of metallic glass–crystal composite, formed by laser patterning, blooms and closes by magnetic force.</description><identifier>ISSN: 2375-2548</identifier><identifier>EISSN: 2375-2548</identifier><identifier>DOI: 10.1126/sciadv.abm7658</identifier><identifier>PMID: 35921409</identifier><language>eng</language><publisher>American Association for the Advancement of Science</publisher><subject>Condensed Matter Physics ; Materials Science ; Physical and Materials Sciences ; SciAdv r-articles</subject><ispartof>Science advances, 2022-08, Vol.8 (31), p.eabm7658-eabm7658</ispartof><rights>Copyright © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. 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An array of laser-crystallized lines is written in a metallic glass ribbon. Changes in density and/or elastic modulus due to laser patterning result in an appropriate size mismatch between the shrunken crystalline regions and the glassy matrix. The residual stress and elastic distortion energy make the composite material to buckle within the elastic limit and to obey the minimum elastic energy criterion. This work not only provides a programming route for constructing buckling structures of metallic glasses but also provides clues for the study of materials with automatic functions desired in robotics, electronic devices, and, especially, medical devices in the field of medicine, such as vessel scaffolds and vascular filters, which require contactless expansion and contraction functions. 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An array of laser-crystallized lines is written in a metallic glass ribbon. Changes in density and/or elastic modulus due to laser patterning result in an appropriate size mismatch between the shrunken crystalline regions and the glassy matrix. The residual stress and elastic distortion energy make the composite material to buckle within the elastic limit and to obey the minimum elastic energy criterion. This work not only provides a programming route for constructing buckling structures of metallic glasses but also provides clues for the study of materials with automatic functions desired in robotics, electronic devices, and, especially, medical devices in the field of medicine, such as vessel scaffolds and vascular filters, which require contactless expansion and contraction functions. 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title	Metallic Mimosa pudica : A 3D biomimetic buckling structure made of metallic glasses
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