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2020 | OriginalPaper | Buchkapitel

15. Sign-Switching of Metamaterial Properties

verfasst von : Prof. Dr. Teik-Cheng Lim

Erschienen in: Mechanics of Metamaterials with Negative Parameters

Verlag: Springer Singapore

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Abstract

Sign-switching refers to materials that can exhibit both positive and negative properties in situ as a result of changing loading direction or opposing changes in environmental conditions, without active control or the need impose changes to the microstructural architecture. Two concepts for sign-switching are briefly introduced, microstructural reshape and microstructural duality, which are elaborated in the remaining chapters of the book.

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Literatur
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Zurück zum Zitat Jiang JW, Chang T, Guo X (2016) Tunable negative Poisson’s ratio in hydrogenated graphene. Nanoscale 8(35):15948–15953CrossRef Jiang JW, Chang T, Guo X (2016) Tunable negative Poisson’s ratio in hydrogenated graphene. Nanoscale 8(35):15948–15953CrossRef
Zurück zum Zitat Jopek H, Strek T (2018) Thermoauxetic behavior of composite structures. Materials 11(2):294CrossRef Jopek H, Strek T (2018) Thermoauxetic behavior of composite structures. Materials 11(2):294CrossRef
Zurück zum Zitat Li D, Ma J, Lakes RS (2016) A bi-material structure with Poisson’s ratio tunable from positive to negative via temperature control. Mater Lett 181:285–288CrossRef Li D, Ma J, Lakes RS (2016) A bi-material structure with Poisson’s ratio tunable from positive to negative via temperature control. Mater Lett 181:285–288CrossRef
Zurück zum Zitat Lim TC (2019a) Composite microstructures with Poisson’s ratio sign switching upon stress reversal. Compos Struct 209:34–44CrossRef Lim TC (2019a) Composite microstructures with Poisson’s ratio sign switching upon stress reversal. Compos Struct 209:34–44CrossRef
Zurück zum Zitat Lim TC (2019b) A composite metamaterial with sign switchable elastic and hygrothermal properties induced by stress direction and environmental change reversals. Compos Struct 220:185–193CrossRef Lim TC (2019b) A composite metamaterial with sign switchable elastic and hygrothermal properties induced by stress direction and environmental change reversals. Compos Struct 220:185–193CrossRef
Zurück zum Zitat Lim TC (2019c) A class of shape-shifting composite metamaterial honeycomb structures with thermally-adaptive Poisson’s ratio signs. Compos Struct 226:111256CrossRef Lim TC (2019c) A class of shape-shifting composite metamaterial honeycomb structures with thermally-adaptive Poisson’s ratio signs. Compos Struct 226:111256CrossRef
Zurück zum Zitat Lim TC (2019d) 2D metamaterial with in-plane positive and negative thermal expansion and thermal shearing based on interconnected alternating biomaterials. Mater Res Express 6(11):115804CrossRef Lim TC (2019d) 2D metamaterial with in-plane positive and negative thermal expansion and thermal shearing based on interconnected alternating biomaterials. Mater Res Express 6(11):115804CrossRef
Zurück zum Zitat Lim TC (2019e) Composite metamaterial with sign-switchable coefficients of hygroscopic, thermal and pressure expansions. Adv Compos Hybrid Mater 2(4):657–669CrossRef Lim TC (2019e) Composite metamaterial with sign-switchable coefficients of hygroscopic, thermal and pressure expansions. Adv Compos Hybrid Mater 2(4):657–669CrossRef
Zurück zum Zitat Lim TC (2019f) Metamaterials with Poisson’s ratio sign toggling by means of microstructural duality. SN Appl Sci 1(2):176CrossRef Lim TC (2019f) Metamaterials with Poisson’s ratio sign toggling by means of microstructural duality. SN Appl Sci 1(2):176CrossRef
Zurück zum Zitat Lim TC (2019g) A 2D auxetikos system based on interconnected shurikens. SN Appl Sci 1(11):1383CrossRef Lim TC (2019g) A 2D auxetikos system based on interconnected shurikens. SN Appl Sci 1(11):1383CrossRef
Zurück zum Zitat Lim TC (2020a) Metacomposite with auxetic and in situ sign reversible thermal expansivity upon temperature fluctuation. Compos Commun 19:30–36CrossRef Lim TC (2020a) Metacomposite with auxetic and in situ sign reversible thermal expansivity upon temperature fluctuation. Compos Commun 19:30–36CrossRef
Zurück zum Zitat Lim TC (2020b) Composite metamaterial square grids with sign-flipping expansion coefficients leading to a type of Islamic design. SN Appl Sci 2(5):918CrossRef Lim TC (2020b) Composite metamaterial square grids with sign-flipping expansion coefficients leading to a type of Islamic design. SN Appl Sci 2(5):918CrossRef
Zurück zum Zitat Lim TC (2020c) Metacomposite structure with sign-changing coefficients of hygrothermal expansions inspired by Islamic motif. Compos Struct 251:112660 Lim TC (2020c) Metacomposite structure with sign-changing coefficients of hygrothermal expansions inspired by Islamic motif. Compos Struct 251:112660
Zurück zum Zitat Qin R, Zheng J, Zhu W (2017) Sign-tunable Poisson’s ratio in semi-fluorinated graphene. Nanoscale 9(1):128–133CrossRef Qin R, Zheng J, Zhu W (2017) Sign-tunable Poisson’s ratio in semi-fluorinated graphene. Nanoscale 9(1):128–133CrossRef
Zurück zum Zitat Zeng B, Long M, Dong Y, Xiao J, Zhang S, Yi Y, Gao Y (2019) Stress-sign-tunable Poisson’s ratio in monolayer blue phosphorus oxide. J Phys Condens Matter 31(29):295702CrossRef Zeng B, Long M, Dong Y, Xiao J, Zhang S, Yi Y, Gao Y (2019) Stress-sign-tunable Poisson’s ratio in monolayer blue phosphorus oxide. J Phys Condens Matter 31(29):295702CrossRef
Metadaten
Titel
Sign-Switching of Metamaterial Properties
verfasst von
Prof. Dr. Teik-Cheng Lim
Copyright-Jahr
2020
Verlag
Springer Singapore
DOI
https://doi.org/10.1007/978-981-15-6446-8_15

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