Programmable and variable-stiffness robotic skins for pneumatic actuation
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve extraordinary shape morphing under large deformations. Conventionally, the entire body of soft pneumatic robots needs to be designed for specific applications. Herein, a soft pneumatic actuator design w...
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sg-ntu-dr.10356-1731012024-01-13T16:47:58Z Programmable and variable-stiffness robotic skins for pneumatic actuation Gao, Weinan Kang, Jingtian Wang, Guohui Ma, Haoxiang Chen, Xueyan Kadic, Muamer Laude, Vincent Tan, Huifeng Wang, Yifan School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Pneumatic Actuation Reusable Robots Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve extraordinary shape morphing under large deformations. Conventionally, the entire body of soft pneumatic robots needs to be designed for specific applications. Herein, a soft pneumatic actuator design with structured fabrics as actuator skins, which has high bending stiffness variation that can accomplish multiple tasks and different deformation modes in a single body, is proposed. By adjusting the structured skin, the developed soft actuator can be tailored to achieve various deformations. It is experimentally shown that the bending stiffness of the actuator can be adjusted from 108 to 5654 N m−1. The blocking force of the actuator in bending is comparable with that of conventional fabric-reinforced pneumatic actuators, while the actuator skins are reusable and programmable. In application, the actuators are used to construct a bionic soft gripper with multiple degrees of freedom. By switching between three grasping modes, the gripper successfully fulfills a series of tasks including lifting weights up to 1 kg and grasping objects ranging from a grain of grape to a large iron basin. This work opens up an avenue for designing structured skins for pneumatic robots with programmable deformation modes and versatile functions. Agency for Science, Technology and Research (A*STAR) Published version This work was supported by the National Nature Science Foundation of China under grant no. 12202118, the MTC IRG award (M21K2c0118), and AME YIRG award (A2084c0162), both funded by Singapore Agency for Science, Technology and Research (A*STAR). W.G. also gratefully acknowledges financial support from China Scholarship Council (CSC202106120089), Heilongjiang Touyan Team (HITTY-20190003),Young Elite Scientist Sponsorship Program by Heilongjiang Province (2022QNTJ0015), and Heilongjiang Province Postdoctoral Fund (LBH-Z22105). 2024-01-12T02:40:06Z 2024-01-12T02:40:06Z 2023 Journal Article Gao, W., Kang, J., Wang, G., Ma, H., Chen, X., Kadic, M., Laude, V., Tan, H. & Wang, Y. (2023). Programmable and variable-stiffness robotic skins for pneumatic actuation. Advanced Intelligent Systems, 5(12), 2300285-. https://dx.doi.org/10.1002/aisy.202300285 2640-4567 https://hdl.handle.net/10356/173101 10.1002/aisy.202300285 2-s2.0-85173505047 12 5 2300285 en M21K2c0118 A2084c0162 Advanced Intelligent Systems © 2023 The Authors. Advanced Intelligent Systems published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. application/pdf |
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Engineering::Mechanical engineering Pneumatic Actuation Reusable Robots |
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Engineering::Mechanical engineering Pneumatic Actuation Reusable Robots Gao, Weinan Kang, Jingtian Wang, Guohui Ma, Haoxiang Chen, Xueyan Kadic, Muamer Laude, Vincent Tan, Huifeng Wang, Yifan Programmable and variable-stiffness robotic skins for pneumatic actuation |
| description |
Pneumatic soft actuators possess relatively fast response, inherent high flexibility, and achieve extraordinary shape morphing under large deformations. Conventionally, the entire body of soft pneumatic robots needs to be designed for specific applications. Herein, a soft pneumatic actuator design with structured fabrics as actuator skins, which has high bending stiffness variation that can accomplish multiple tasks and different deformation modes in a single body, is proposed. By adjusting the structured skin, the developed soft actuator can be tailored to achieve various deformations. It is experimentally shown that the bending stiffness of the actuator can be adjusted from 108 to 5654 N m−1. The blocking force of the actuator in bending is comparable with that of conventional fabric-reinforced pneumatic actuators, while the actuator skins are reusable and programmable. In application, the actuators are used to construct a bionic soft gripper with multiple degrees of freedom. By switching between three grasping modes, the gripper successfully fulfills a series of tasks including lifting weights up to 1 kg and grasping objects ranging from a grain of grape to a large iron basin. This work opens up an avenue for designing structured skins for pneumatic robots with programmable deformation modes and versatile functions. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Gao, Weinan Kang, Jingtian Wang, Guohui Ma, Haoxiang Chen, Xueyan Kadic, Muamer Laude, Vincent Tan, Huifeng Wang, Yifan |
| format |
Article |
| author |
Gao, Weinan Kang, Jingtian Wang, Guohui Ma, Haoxiang Chen, Xueyan Kadic, Muamer Laude, Vincent Tan, Huifeng Wang, Yifan |
| author_sort |
Gao, Weinan |
| title |
Programmable and variable-stiffness robotic skins for pneumatic actuation |
| title_short |
Programmable and variable-stiffness robotic skins for pneumatic actuation |
| title_full |
Programmable and variable-stiffness robotic skins for pneumatic actuation |
| title_fullStr |
Programmable and variable-stiffness robotic skins for pneumatic actuation |
| title_full_unstemmed |
Programmable and variable-stiffness robotic skins for pneumatic actuation |
| title_sort |
programmable and variable-stiffness robotic skins for pneumatic actuation |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173101 |
| _version_ |
1789482872586895360 |