Design and modeling of a programmable morphing structure with variable stiffness capability
The development of structures capable of both dynamic shape morphing and stiffness modulation has significant potential in various applications. However, such structures often suffer from bulkiness and control complexity. This paper addresses these challenges by exploring a scaled structure that int...
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sg-ntu-dr.10356-1807122024-10-21T08:21:50Z Design and modeling of a programmable morphing structure with variable stiffness capability Chen, Tianyu Yang, Xudong Wang, Yifan School of Mechanical and Aerospace Engineering Engineering Theoretical analysis Finite element analysis The development of structures capable of both dynamic shape morphing and stiffness modulation has significant potential in various applications. However, such structures often suffer from bulkiness and control complexity. This paper addresses these challenges by exploring a scaled structure that integrates morphing capabilities and variable stiffness within a compact configuration. For the first time, we establish a comprehensive set of design criteria and obtain the previously unexplored design space, focusing on geometric parameters including layer thickness, target shape radius, the number of scales, and the number of periods per scale. Through extensive finite element simulations, we evaluate the impact of material property and geometric parameters on the performance of the scaled structure, emphasizing the role of coefficient of friction. Our findings identify a critical threshold for the coefficient of friction above which morphing ability is hindered. Additionally, we uncover a trade-off between morphing capability and stiffness variation ability, which we overcome by modifying the surface structure of the scales. The optimal design is found to be a superellipse shape with an exponent of ∼1.9. The practical potential of this structure is demonstrated through three applications: a soft gripper, a phone stand, and a foldable box, showcasing its versatility in real-world scenarios. This research provides a foundational approach for designing morphing scaled structures, offering valuable insights into optimizing morphing capability and stiffness variation ability for broader engineering applications. 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. 2024-10-21T08:21:50Z 2024-10-21T08:21:50Z 2024 Journal Article Chen, T., Yang, X. & Wang, Y. (2024). Design and modeling of a programmable morphing structure with variable stiffness capability. International Journal of Mechanical Sciences, 284, 109699-. https://dx.doi.org/10.1016/j.ijmecsci.2024.109699 0020-7403 https://hdl.handle.net/10356/180712 10.1016/j.ijmecsci.2024.109699 2-s2.0-85204056089 284 109699 en M21K2c0118 MOE-T2EP50123-0015 NAP 020482 International Journal of Mechanical Sciences © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Theoretical analysis Finite element analysis Chen, Tianyu Yang, Xudong Wang, Yifan Design and modeling of a programmable morphing structure with variable stiffness capability |
| description |
The development of structures capable of both dynamic shape morphing and stiffness modulation has significant potential in various applications. However, such structures often suffer from bulkiness and control complexity. This paper addresses these challenges by exploring a scaled structure that integrates morphing capabilities and variable stiffness within a compact configuration. For the first time, we establish a comprehensive set of design criteria and obtain the previously unexplored design space, focusing on geometric parameters including layer thickness, target shape radius, the number of scales, and the number of periods per scale. Through extensive finite element simulations, we evaluate the impact of material property and geometric parameters on the performance of the scaled structure, emphasizing the role of coefficient of friction. Our findings identify a critical threshold for the coefficient of friction above which morphing ability is hindered. Additionally, we uncover a trade-off between morphing capability and stiffness variation ability, which we overcome by modifying the surface structure of the scales. The optimal design is found to be a superellipse shape with an exponent of ∼1.9. The practical potential of this structure is demonstrated through three applications: a soft gripper, a phone stand, and a foldable box, showcasing its versatility in real-world scenarios. This research provides a foundational approach for designing morphing scaled structures, offering valuable insights into optimizing morphing capability and stiffness variation ability for broader engineering applications. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Chen, Tianyu Yang, Xudong Wang, Yifan |
| format |
Article |
| author |
Chen, Tianyu Yang, Xudong Wang, Yifan |
| author_sort |
Chen, Tianyu |
| title |
Design and modeling of a programmable morphing structure with variable stiffness capability |
| title_short |
Design and modeling of a programmable morphing structure with variable stiffness capability |
| title_full |
Design and modeling of a programmable morphing structure with variable stiffness capability |
| title_fullStr |
Design and modeling of a programmable morphing structure with variable stiffness capability |
| title_full_unstemmed |
Design and modeling of a programmable morphing structure with variable stiffness capability |
| title_sort |
design and modeling of a programmable morphing structure with variable stiffness capability |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180712 |
| _version_ |
1814777756701949952 |