In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites
The dispersibility of fillers determines their effect on the mechanical properties and anisotropy of the 3D-printed polymeric composites. Nanoscale fillers have the tendency to aggregate, resulting in the deterioration of part performance. An in situ filler addition method using the newly developed...
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sg-ntu-dr.10356-1709852023-10-14T16:48:06Z In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites Chen, Jiayao An, Ran Tey, Wei Shian Zeng, Qingyun Zhao, Lihua Zhou, Kun School of Mechanical and Aerospace Engineering HP-NTU Digital Manufacturing Corporate Lab Singapore Centre for 3D Printing Engineering::Mechanical engineering 3D Printing Dual-Functional Toughness Agents The dispersibility of fillers determines their effect on the mechanical properties and anisotropy of the 3D-printed polymeric composites. Nanoscale fillers have the tendency to aggregate, resulting in the deterioration of part performance. An in situ filler addition method using the newly developed dual-functional toughness agents (TAs) is proposed in this work for the homogeneous dispersion of carbon nanotubes (CNTs) in elastomer composites printed via multi jet fusion. The CNTs added in the TAs serve as an infrared absorbing colorant for selective powder fusion, as well as the strengthening and toughening fillers. The printability of the TA is theoretically deduced based on the measured physical properties, which are subsequently verified experimentally. The printing parameters and agent formulation are optimized to maximize the mechanical performance of the printed parts. The printed elastomer parts show significant improvement in strength and toughness for all printing orientations and alleviation of the mechanical anisotropy originating from the layer-wise fabrication manner. This in situ filler addition method using tailorable TAs is applicable for fabricating parts with site-specific mechanical properties and is promising in assisting the scalable manufacturing of 3D-printed elastomers. Agency for Science, Technology and Research (A*STAR) Published version This study was supported by the RIE2020 Industry Alignment Fund–Industry Collaboration Projects (IAF–ICP) Funding Initiative, Singapore and cash and in-kind contribution from the industry partner, HP Inc. 2023-10-10T01:42:31Z 2023-10-10T01:42:31Z 2023 Journal Article Chen, J., An, R., Tey, W. S., Zeng, Q., Zhao, L. & Zhou, K. (2023). In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites. Advanced Science, 10(25), e2300593-. https://dx.doi.org/10.1002/advs.202300593 2198-3844 https://hdl.handle.net/10356/170985 10.1002/advs.202300593 37395637 2-s2.0-85163787419 25 10 e2300593 en Advanced Science © 2023 The Authors. Advanced Science 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 3D Printing Dual-Functional Toughness Agents Chen, Jiayao An, Ran Tey, Wei Shian Zeng, Qingyun Zhao, Lihua Zhou, Kun In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| description |
The dispersibility of fillers determines their effect on the mechanical properties and anisotropy of the 3D-printed polymeric composites. Nanoscale fillers have the tendency to aggregate, resulting in the deterioration of part performance. An in situ filler addition method using the newly developed dual-functional toughness agents (TAs) is proposed in this work for the homogeneous dispersion of carbon nanotubes (CNTs) in elastomer composites printed via multi jet fusion. The CNTs added in the TAs serve as an infrared absorbing colorant for selective powder fusion, as well as the strengthening and toughening fillers. The printability of the TA is theoretically deduced based on the measured physical properties, which are subsequently verified experimentally. The printing parameters and agent formulation are optimized to maximize the mechanical performance of the printed parts. The printed elastomer parts show significant improvement in strength and toughness for all printing orientations and alleviation of the mechanical anisotropy originating from the layer-wise fabrication manner. This in situ filler addition method using tailorable TAs is applicable for fabricating parts with site-specific mechanical properties and is promising in assisting the scalable manufacturing of 3D-printed elastomers. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Chen, Jiayao An, Ran Tey, Wei Shian Zeng, Qingyun Zhao, Lihua Zhou, Kun |
| format |
Article |
| author |
Chen, Jiayao An, Ran Tey, Wei Shian Zeng, Qingyun Zhao, Lihua Zhou, Kun |
| author_sort |
Chen, Jiayao |
| title |
In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| title_short |
In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| title_full |
In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| title_fullStr |
In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| title_full_unstemmed |
In situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| title_sort |
in situ filler addition for homogeneous dispersion of carbon nanotubes in multi jet fusion-printed elastomer composites |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170985 |
| _version_ |
1781793727871713280 |