Mechanical characteristics of graded origami bellows under axial tension
In this study, the mechanical characteristics of the graded origami bellows were numerically investigated and experimentally validated. Two graded geometric parameters were considered: pre-folding angle ( θ ) and layer height ( L e ). The sensitivities of the deployment process and energy absorption...
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Published in | Frontiers in physics Vol. 11 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Frontiers Media S.A
13.12.2023
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Abstract | In this study, the mechanical characteristics of the graded origami bellows were numerically investigated and experimentally validated. Two graded geometric parameters were considered: pre-folding angle (
θ
) and layer height (
L
e
). The sensitivities of the deployment process and energy absorption efficiency of origami bellows to variations in
θ
and
L
e
under quasi-static loading and dynamic loading were numerically investigated. Results show that the origami bellows with positive gradients exhibited progressive deployment process. More than one deformation mechanism was triggered during deployment, indicating a mixed non-rigid deployment mode. A large gradient of
θ
had a notable effect on the energy absorption efficiency. Both specific energy absorption (
SEA
) and mean tensile force (
P
m
) decreased as the gradient of
θ
increased. Although the gradient of
L
e
was insensitive to the force response, the
SEA
decreased as the gradient of L
e
increased. The dynamic behavior of the graded models indicated that both the initial peak force and
SEA
were affected by the graded parameters. In general, the proposed graded origami bellows show a controllable deployment process and a stable force response under axial tension. |
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AbstractList | In this study, the mechanical characteristics of the graded origami bellows were numerically investigated and experimentally validated. Two graded geometric parameters were considered: pre-folding angle (θ) and layer height (Le). The sensitivities of the deployment process and energy absorption efficiency of origami bellows to variations in θ and Le under quasi-static loading and dynamic loading were numerically investigated. Results show that the origami bellows with positive gradients exhibited progressive deployment process. More than one deformation mechanism was triggered during deployment, indicating a mixed non-rigid deployment mode. A large gradient of θ had a notable effect on the energy absorption efficiency. Both specific energy absorption (SEA) and mean tensile force (Pm) decreased as the gradient of θ increased. Although the gradient of Le was insensitive to the force response, the SEA decreased as the gradient of Le increased. The dynamic behavior of the graded models indicated that both the initial peak force and SEA were affected by the graded parameters. In general, the proposed graded origami bellows show a controllable deployment process and a stable force response under axial tension. In this study, the mechanical characteristics of the graded origami bellows were numerically investigated and experimentally validated. Two graded geometric parameters were considered: pre-folding angle ( θ ) and layer height ( L e ). The sensitivities of the deployment process and energy absorption efficiency of origami bellows to variations in θ and L e under quasi-static loading and dynamic loading were numerically investigated. Results show that the origami bellows with positive gradients exhibited progressive deployment process. More than one deformation mechanism was triggered during deployment, indicating a mixed non-rigid deployment mode. A large gradient of θ had a notable effect on the energy absorption efficiency. Both specific energy absorption ( SEA ) and mean tensile force ( P m ) decreased as the gradient of θ increased. Although the gradient of L e was insensitive to the force response, the SEA decreased as the gradient of L e increased. The dynamic behavior of the graded models indicated that both the initial peak force and SEA were affected by the graded parameters. In general, the proposed graded origami bellows show a controllable deployment process and a stable force response under axial tension. |
Author | Wang, Shenghai Lu, Guoxing Zhang, Xinyi Durandet, Yvonne |
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References | Zhang (B4) 2023; 246 Lv (B26) 2019 Miura (B7) 2010 Xie (B22) 2016 Reid (B12) 2017; 95 Avalle (B20) 2007; 34 Cai (B9) 2015; 137 Li (B8) 2023; 188 Cai (B3) 2013; 135 Sun (B14) 2015; 78 Zhang (B15) 2014; 84 De Waal (B16) 2021; 157 Nagel (B18) 2004; 46 Song (B11) 2012; 54 Ma (B23) 2019; 10 Lu (B1) 2003 Xiang (B2) 2017; 151 Xu (B17) 2018; 171 Baykasoglu (B21) 2015; 20 Ishida (B5) 2020; 7 Cai (B6) 2016; 138 Karbasian (B13) 2010; 210 Ma (B10) 2016; 100 De Waal (B24) 2019 Hou (B19) 2011; 49 Yuan (B25) 2018 |
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SubjectTerms | axial tension dynamic behavior energy absorption graded origami bellows non-rigid deployment quasi-static behavior |
Title | Mechanical characteristics of graded origami bellows under axial tension |
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