3D auxetic metamaterials with tunable multistable mechanical properties
Multistable mechanical metamaterials have been extensively studied for their unique mechanical behaviors, including snap-through capability, variable stiffness, and recoverable cushioning properties. Similarly, auxetic metamaterials, known for their ability to uniformly distribute stress, absorb ene...
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sg-ntu-dr.10356-1827692025-02-24T08:15:23Z 3D auxetic metamaterials with tunable multistable mechanical properties Zhang, Bojian Meng, Zhiqiang Wang, Yifan School of Mechanical and Aerospace Engineering Engineering Mechanical metamaterials 3D bistable structure Multistable mechanical metamaterials have been extensively studied for their unique mechanical behaviors, including snap-through capability, variable stiffness, and recoverable cushioning properties. Similarly, auxetic metamaterials, known for their ability to uniformly distribute stress, absorb energy efficiently, and withstand complex loading conditions, offer significant potential for the development of safer, more durable, and efficient materials. Despite significant progress in the field, a key challenge remains unaddressed: the effective integration of both multistability and auxetic properties in 3-dimensional (3D) mechanical metamaterials. This integration has not been fully explored, particularly regarding the realization of programmable, directionally tunable behaviors that combine the advantages of a negative Poisson's ratio and multiple stable states. Here, we introduce a 3D mechanical metamaterial composed of isotropic bistable auxetic blocks (BABs) fabricated using bi-material 3D printing technology. Mechanical models are developed to assess the influence of geometrical parameters on the mechanical responses of BAB, which are validated through both numerical simulation and experimental results. By assembling these proposed BABs, we demonstrate that 3D mechanical metamaterials with multistable auxetic behavior can be designed and fabricated. Our results show that these metamaterials exhibit sequential deformation under applied loading and possess programmable mechanical properties. These findings open new avenues for the design and development of 3D multistable auxetic metamaterials with programmable mechanical behaviors, offering promising applications in areas such as energy absorption, deployable structures, soft robotics, and more. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University This work is supported by the A*STAR Singapore through RIE2025 MTC IRG Award M21K2c0118, and by Singapore MOE Tier-2 Award MOE-T2EP50123- 0015. Y.W. acknowledges the NAP award 020482 from Nanyang Technological University Singapore. 2025-02-24T08:15:23Z 2025-02-24T08:15:23Z 2025 Journal Article Zhang, B., Meng, Z. & Wang, Y. (2025). 3D auxetic metamaterials with tunable multistable mechanical properties. Mechanics of Materials, 201, 105217-. https://dx.doi.org/10.1016/j.mechmat.2024.105217 0167-6636 https://hdl.handle.net/10356/182769 10.1016/j.mechmat.2024.105217 2-s2.0-85212343531 201 105217 en M21K2c0118 MOE-T2EP50123-0015 NAP 020482 Mechanics of Materials © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Mechanical metamaterials 3D bistable structure |
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Engineering Mechanical metamaterials 3D bistable structure Zhang, Bojian Meng, Zhiqiang Wang, Yifan 3D auxetic metamaterials with tunable multistable mechanical properties |
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Multistable mechanical metamaterials have been extensively studied for their unique mechanical behaviors, including snap-through capability, variable stiffness, and recoverable cushioning properties. Similarly, auxetic metamaterials, known for their ability to uniformly distribute stress, absorb energy efficiently, and withstand complex loading conditions, offer significant potential for the development of safer, more durable, and efficient materials. Despite significant progress in the field, a key challenge remains unaddressed: the effective integration of both multistability and auxetic properties in 3-dimensional (3D) mechanical metamaterials. This integration has not been fully explored, particularly regarding the realization of programmable, directionally tunable behaviors that combine the advantages of a negative Poisson's ratio and multiple stable states. Here, we introduce a 3D mechanical metamaterial composed of isotropic bistable auxetic blocks (BABs) fabricated using bi-material 3D printing technology. Mechanical models are developed to assess the influence of geometrical parameters on the mechanical responses of BAB, which are validated through both numerical simulation and experimental results. By assembling these proposed BABs, we demonstrate that 3D mechanical metamaterials with multistable auxetic behavior can be designed and fabricated. Our results show that these metamaterials exhibit sequential deformation under applied loading and possess programmable mechanical properties. These findings open new avenues for the design and development of 3D multistable auxetic metamaterials with programmable mechanical behaviors, offering promising applications in areas such as energy absorption, deployable structures, soft robotics, and more. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Zhang, Bojian Meng, Zhiqiang Wang, Yifan |
| format |
Article |
| author |
Zhang, Bojian Meng, Zhiqiang Wang, Yifan |
| author_sort |
Zhang, Bojian |
| title |
3D auxetic metamaterials with tunable multistable mechanical properties |
| title_short |
3D auxetic metamaterials with tunable multistable mechanical properties |
| title_full |
3D auxetic metamaterials with tunable multistable mechanical properties |
| title_fullStr |
3D auxetic metamaterials with tunable multistable mechanical properties |
| title_full_unstemmed |
3D auxetic metamaterials with tunable multistable mechanical properties |
| title_sort |
3d auxetic metamaterials with tunable multistable mechanical properties |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182769 |
| _version_ |
1825619682190688256 |