A metamaterial with enhanced effective stiffness and negative Poisson's ratio for frictional energy dissipation

Unlike traditional energy dissipation structures that dissipate energy through irreversible plastic deformation or collapse, metamaterials based on friction energy dissipation have attracted attention due to their reusability. This article proposed a novel energy dissipation metamaterial by integrat...

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Published inEuropean journal of mechanics, A, Solids Vol. 107; p. 105390
Main Authors Lv, Weitao, Li, Dong
Format Journal Article
LanguageEnglish
Published Elsevier Masson SAS 01.09.2024
Subjects
Energy dissipation
Finite element simulation
Metamaterial
Negative Poisson's ratio
Negative Poisson's ratio
Energy dissipation
Metamaterial
Finite element simulation
Online AccessGet full text
ISSN0997-7538
DOI10.1016/j.euromechsol.2024.105390

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Abstract Unlike traditional energy dissipation structures that dissipate energy through irreversible plastic deformation or collapse, metamaterials based on friction energy dissipation have attracted attention due to their reusability. This article proposed a novel energy dissipation metamaterial by integrating friction energy dissipation mechanism into negative Poisson's ratio (NPR) structures. The integration of friction energy dissipation mechanism can simultaneously enhance the effective stiffness and NPR effect. The mechanical properties of the proposed structure were investigated using theoretical analysis, experiments, and finite element (FE) simulations. The influence of variables such as internal concave angle, friction coefficient, and number of reinforcing ribs was discussed. The results indicate that both unit cell and honeycomb structure can repeatedly dissipate energy within the elastic range. Compared with the traditional concave hexagonal structure, the effective stiffness and NPR effect were enhanced. This work provides a novel idea for the design of NPR energy dissipation structures.
AbstractList Unlike traditional energy dissipation structures that dissipate energy through irreversible plastic deformation or collapse, metamaterials based on friction energy dissipation have attracted attention due to their reusability. This article proposed a novel energy dissipation metamaterial by integrating friction energy dissipation mechanism into negative Poisson's ratio (NPR) structures. The integration of friction energy dissipation mechanism can simultaneously enhance the effective stiffness and NPR effect. The mechanical properties of the proposed structure were investigated using theoretical analysis, experiments, and finite element (FE) simulations. The influence of variables such as internal concave angle, friction coefficient, and number of reinforcing ribs was discussed. The results indicate that both unit cell and honeycomb structure can repeatedly dissipate energy within the elastic range. Compared with the traditional concave hexagonal structure, the effective stiffness and NPR effect were enhanced. This work provides a novel idea for the design of NPR energy dissipation structures.
ArticleNumber 105390
Author Li, Dong
Lv, Weitao
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Finite element simulation
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Snippet Unlike traditional energy dissipation structures that dissipate energy through irreversible plastic deformation or collapse, metamaterials based on friction...
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StartPage 105390
SubjectTerms Energy dissipation
Finite element simulation
Metamaterial
Negative Poisson's ratio
Title A metamaterial with enhanced effective stiffness and negative Poisson's ratio for frictional energy dissipation
URI https://dx.doi.org/10.1016/j.euromechsol.2024.105390
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