Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’
Cyclosiloxane hybrid polymer (CHP) was identified as a nacre-like structure, and was reinforced in a bio-inspired way through the incorporation of soft PDMS segment. Simultaneous improvement in both toughness and strength was observed, and the corresponding reinforcing mechanism was proposed to expl...
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sg-ntu-dr.10356-1504192021-08-04T08:47:52Z Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ Song, Yujie Chen, Xuelong Liang, Yen Nan Zhang, Liying Liu, Ming Hu, Xiao School of Materials Science and Engineering Temasek Laboratories @ NTU Engineering::Materials Bio-inspired Simultaneous Reinforcement Cyclosiloxane hybrid polymer (CHP) was identified as a nacre-like structure, and was reinforced in a bio-inspired way through the incorporation of soft PDMS segment. Simultaneous improvement in both toughness and strength was observed, and the corresponding reinforcing mechanism was proposed to explain this phenomenon. It is believed that PDMS exited as two phases in the CHP. The homogeneously dispersed PDMS chains contribute positively to both the toughness and the strength via ‘molecular stitching', the phase separated PDMS particles improve the toughness but deteriorate the strength. Other types of siloxane-based additives were incorporated to prove the mechanism proposed. Nanyang Technological University The authors would like to acknowledge the funding supported by Nanyang Technological University (NTU) with the grant number M4061124 and the support from School of Materials Science and Engineering NTU on the present work. 2021-08-04T08:47:52Z 2021-08-04T08:47:52Z 2019 Journal Article Song, Y., Chen, X., Liang, Y. N., Zhang, L., Liu, M. & Hu, X. (2019). Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’. Chemical Engineering Journal, 368, 573-576. https://dx.doi.org/10.1016/j.cej.2019.02.184 1385-8947 0000-0001-9600-8530 0000-0002-3243-700X https://hdl.handle.net/10356/150419 10.1016/j.cej.2019.02.184 2-s2.0-85062187214 368 573 576 en M4061124 Chemical Engineering Journal © 2019 Published by Elsevier B.V. All rights reserved. |
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Engineering::Materials Bio-inspired Simultaneous Reinforcement Song, Yujie Chen, Xuelong Liang, Yen Nan Zhang, Liying Liu, Ming Hu, Xiao Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| description |
Cyclosiloxane hybrid polymer (CHP) was identified as a nacre-like structure, and was reinforced in a bio-inspired way through the incorporation of soft PDMS segment. Simultaneous improvement in both toughness and strength was observed, and the corresponding reinforcing mechanism was proposed to explain this phenomenon. It is believed that PDMS exited as two phases in the CHP. The homogeneously dispersed PDMS chains contribute positively to both the toughness and the strength via ‘molecular stitching', the phase separated PDMS particles improve the toughness but deteriorate the strength. Other types of siloxane-based additives were incorporated to prove the mechanism proposed. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Song, Yujie Chen, Xuelong Liang, Yen Nan Zhang, Liying Liu, Ming Hu, Xiao |
| format |
Article |
| author |
Song, Yujie Chen, Xuelong Liang, Yen Nan Zhang, Liying Liu, Ming Hu, Xiao |
| author_sort |
Song, Yujie |
| title |
Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| title_short |
Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| title_full |
Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| title_fullStr |
Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| title_full_unstemmed |
Bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| title_sort |
bio-inspired reinforcement of cyclosiloxane hybrid polymer via ‘molecular stitching’ |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/150419 |
| _version_ |
1707774584360534016 |