Selective laser sintering-based 4D printing of magnetism-responsive grippers
Components fabricated by four-dimensional (4D) printing hold the potential for applications in soft robotics because of their characteristics of responding to external stimuli. Grippers, being the common structures used in robotics, were fabricated by the selective laser sintering (SLS)-based 4D pri...
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sg-ntu-dr.10356-1601162022-07-13T01:42:35Z Selective laser sintering-based 4D printing of magnetism-responsive grippers Wu, Hongzhi Wang, Ouyangxu Tian, Yujia Wang, Mingzhe Su, Bin Yan, Chunze Zhou, Kun Shi, Yusheng School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering::Materials 4D Printing Selective Laser Sintering Components fabricated by four-dimensional (4D) printing hold the potential for applications in soft robotics because of their characteristics of responding to external stimuli. Grippers, being the common structures used in robotics, were fabricated by the selective laser sintering (SLS)-based 4D printing of magnetism-responsive materials and tested for remote-controllable deformation in an external magnetic field. A composite material consisting of magnetic Nd2Fe14B powder and thermoplastic polyurethane powder was selected as the raw material for the SLS; the magnetic particle acquired permanent magnetism by magnetization after the SLS process. Microscopic characterization showed the homogeneous dispersion of magnetic particles inside the polymer matrix. The magnetic induction intensity distribution was systematically investigated by both experiments and numerical simulations. The reliability of the numerical model proposed was justified by the excellent consistency between them. The deformation of the grippers could be regulated by tuning the magnetic particle content and the distance from the external magnet; the deformation mechanism is investigated numerically. The magnetic driving force and the corresponding horizontal displacement are calculated, thus having high accuracy compared with the existing research that obtained the deformation amount by only visual inspection. Mechanical properties of the SLS-fabricated magnetic polymer composite specimens were also studied because of their close relationship with the deformation behaviors. These findings provide guidance for future research on controllable deformation and driving force calculation for 4D printing. This work was supported by the development of a verification platform for product design, process, and information exchange standards in additive manufacturing (2019-00899-1-1), Program for HUST Academic Frontier Youth Team of “4D printing Technology” (2018QYTD04), and Hubei Provincial Technical Innovation Major Program (No. 2017AAA109). 2022-07-13T01:42:35Z 2022-07-13T01:42:35Z 2021 Journal Article Wu, H., Wang, O., Tian, Y., Wang, M., Su, B., Yan, C., Zhou, K. & Shi, Y. (2021). Selective laser sintering-based 4D printing of magnetism-responsive grippers. ACS Applied Materials and Interfaces, 13(11), 12679-12688. https://dx.doi.org/10.1021/acsami.0c17429 1944-8244 https://hdl.handle.net/10356/160116 10.1021/acsami.0c17429 33369398 2-s2.0-85099157101 11 13 12679 12688 en ACS Applied Materials and Interfaces © 2020 American Chemical Society. All rights reserved. |
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Engineering::Materials 4D Printing Selective Laser Sintering Wu, Hongzhi Wang, Ouyangxu Tian, Yujia Wang, Mingzhe Su, Bin Yan, Chunze Zhou, Kun Shi, Yusheng Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| description |
Components fabricated by four-dimensional (4D) printing hold the potential for applications in soft robotics because of their characteristics of responding to external stimuli. Grippers, being the common structures used in robotics, were fabricated by the selective laser sintering (SLS)-based 4D printing of magnetism-responsive materials and tested for remote-controllable deformation in an external magnetic field. A composite material consisting of magnetic Nd2Fe14B powder and thermoplastic polyurethane powder was selected as the raw material for the SLS; the magnetic particle acquired permanent magnetism by magnetization after the SLS process. Microscopic characterization showed the homogeneous dispersion of magnetic particles inside the polymer matrix. The magnetic induction intensity distribution was systematically investigated by both experiments and numerical simulations. The reliability of the numerical model proposed was justified by the excellent consistency between them. The deformation of the grippers could be regulated by tuning the magnetic particle content and the distance from the external magnet; the deformation mechanism is investigated numerically. The magnetic driving force and the corresponding horizontal displacement are calculated, thus having high accuracy compared with the existing research that obtained the deformation amount by only visual inspection. Mechanical properties of the SLS-fabricated magnetic polymer composite specimens were also studied because of their close relationship with the deformation behaviors. These findings provide guidance for future research on controllable deformation and driving force calculation for 4D printing. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Wu, Hongzhi Wang, Ouyangxu Tian, Yujia Wang, Mingzhe Su, Bin Yan, Chunze Zhou, Kun Shi, Yusheng |
| format |
Article |
| author |
Wu, Hongzhi Wang, Ouyangxu Tian, Yujia Wang, Mingzhe Su, Bin Yan, Chunze Zhou, Kun Shi, Yusheng |
| author_sort |
Wu, Hongzhi |
| title |
Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| title_short |
Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| title_full |
Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| title_fullStr |
Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| title_full_unstemmed |
Selective laser sintering-based 4D printing of magnetism-responsive grippers |
| title_sort |
selective laser sintering-based 4d printing of magnetism-responsive grippers |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160116 |
| _version_ |
1738844933002887168 |