Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces
Fabrication of structures in unstructured conditions is a promising area of bolstering the application spaces of additive manufacturing (AM). One emerging application is appending structures on existing ones that may have nonplanar surfaces in unconventional orientations. However, extrusion-based AM...
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sg-ntu-dr.10356-1785022024-06-29T16:47:54Z Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces Armstrong, Connor David Montgomery, Stuart Macrae Yue, Liang Demoly, Frédéric Zhou, Kun Qi, Jerry H. School of Mechanical and Aerospace Engineering Singapore Centre for 3D Printing Engineering 3D printing Additive manufacturing Fabrication of structures in unstructured conditions is a promising area of bolstering the application spaces of additive manufacturing (AM). One emerging application is appending structures on existing ones that may have nonplanar surfaces in unconventional orientations. However, extrusion-based AM techniques are limited to printing on structured, planar environments with a fixed single-nozzle direction. Herein, the authors present a dexterous conformal material extrusion printing method using a six-axis robotic arm capable of constructing complex parts onto highly unstructured surfaces with rough topographies. The manufacturing method employs a custom algorithm that generates layers consisting of 3D spatial coordinates of print path as well as the extrusion nozzle oriented in the normal direction of the substrate, thereby enabling conformal motion of the extrusion nozzle to the unstructured surface. The capabilities of the surface-informed robotic conformal 3D printing method to fabricate structures on surfaces with a variety of topographies in unconventional orientations are demonstrated. Finally, via addition of deposited conductive paths, a high-strength, functional reinforcement capable of in situ deformation monitoring is appended. This work has the potential for reconstructing, repairing, and reinforcing existing structures in human-limited or inaccessible spaces. Integration of functional elements can also enable in situ sensing, monitoring, and self-diagnosis. Published version H.J.Q. acknowledges the support of AFOSR grants (FA9550-19-1-0151 and FA9550-20-1-0306; Dr. B.-L. “Les” Lee, Program Manager). H.J.Q. also acknowledges the gift funds from HP, Inc. 2024-06-24T08:07:48Z 2024-06-24T08:07:48Z 2024 Journal Article Armstrong, C. D., Montgomery, S. M., Yue, L., Demoly, F., Zhou, K. & Qi, J. H. (2024). Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces. Advanced Intelligent Systems, 6(3), 2300516-. https://dx.doi.org/10.1002/aisy.202300516 2640-4567 https://hdl.handle.net/10356/178502 10.1002/aisy.202300516 2-s2.0-85181734397 3 6 2300516 en 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 3D printing Additive manufacturing |
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Engineering 3D printing Additive manufacturing Armstrong, Connor David Montgomery, Stuart Macrae Yue, Liang Demoly, Frédéric Zhou, Kun Qi, Jerry H. Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| description |
Fabrication of structures in unstructured conditions is a promising area of bolstering the application spaces of additive manufacturing (AM). One emerging application is appending structures on existing ones that may have nonplanar surfaces in unconventional orientations. However, extrusion-based AM techniques are limited to printing on structured, planar environments with a fixed single-nozzle direction. Herein, the authors present a dexterous conformal material extrusion printing method using a six-axis robotic arm capable of constructing complex parts onto highly unstructured surfaces with rough topographies. The manufacturing method employs a custom algorithm that generates layers consisting of 3D spatial coordinates of print path as well as the extrusion nozzle oriented in the normal direction of the substrate, thereby enabling conformal motion of the extrusion nozzle to the unstructured surface. The capabilities of the surface-informed robotic conformal 3D printing method to fabricate structures on surfaces with a variety of topographies in unconventional orientations are demonstrated. Finally, via addition of deposited conductive paths, a high-strength, functional reinforcement capable of in situ deformation monitoring is appended. This work has the potential for reconstructing, repairing, and reinforcing existing structures in human-limited or inaccessible spaces. Integration of functional elements can also enable in situ sensing, monitoring, and self-diagnosis. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Armstrong, Connor David Montgomery, Stuart Macrae Yue, Liang Demoly, Frédéric Zhou, Kun Qi, Jerry H. |
| format |
Article |
| author |
Armstrong, Connor David Montgomery, Stuart Macrae Yue, Liang Demoly, Frédéric Zhou, Kun Qi, Jerry H. |
| author_sort |
Armstrong, Connor David |
| title |
Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| title_short |
Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| title_full |
Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| title_fullStr |
Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| title_full_unstemmed |
Robotic conformal material extrusion 3D printing for appending structures on unstructured surfaces |
| title_sort |
robotic conformal material extrusion 3d printing for appending structures on unstructured surfaces |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/178502 |
| _version_ |
1814047346160304128 |