Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms
Two different sizes of polydopamine-coated layered double hydroxides (D-LDHs) are incorporated into polycaprolactone-based polyurethane (PU) to enhance the mechanical and shape memory properties of the PU. The results show that D-LDH interacts strongly with hard segments and hence enhancing phase se...
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sg-ntu-dr.10356-827672023-07-14T15:50:04Z Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms Phua, Si Lei Yang, Liping Huang, Shu Ding, Guoqiang Zhou, Rui Lew, Jun Heng Lau, Soo Khim Yuan, Xiaowen Lu, Xuehong School of Materials Science & Engineering A*STAR SIMTech polydopamine nanosheets polyurethane nanocomposites shape memory polymer Two different sizes of polydopamine-coated layered double hydroxides (D-LDHs) are incorporated into polycaprolactone-based polyurethane (PU) to enhance the mechanical and shape memory properties of the PU. The results show that D-LDH interacts strongly with hard segments and hence enhancing phase separation between hard and soft segments. It is found that the tensile moduli of the PU/D-LDH nanocomposites are much higher than that of neat PU at 60 oC. In comparison with neat PU, the nanocomposite with 2 wt% of small D-LDH exhibits a 60% increase in recovery stress while shape fixity and strain recovery ratio are also improved simultaneously. This is because at low filler loading, most small D-LDH nanosheets interact with hard domains and they are not large enough to connect neighbor hard domains. They can hence reinforce the hard domains without sacrificing the elasticity of the system. Two-dimensional X-ray diffraction studies indicate that most small D-LDH nanosheets are able to rotate back from aligned state to original random state in shape recovery process, justifying the improved strain recovery ratio. ASTAR (Agency for Sci., Tech. and Research, S’pore) Accepted version 2016-03-29T08:42:48Z 2019-12-06T15:05:09Z 2016-03-29T08:42:48Z 2019-12-06T15:05:09Z 2014 Journal Article Phua, S. L., Yang, L., Huang, S., Ding, G., Zhou, R., Lew, J. H., et al. (2014). Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms. European Polymer Journal, 57, 11-21. 0014-3057 https://hdl.handle.net/10356/82767 http://hdl.handle.net/10220/40338 10.1016/j.eurpolymj.2014.04.019 en European Polymer Journal © 2014 Elsevier. This is the author created version of a work that has been peer reviewed and accepted for publication by European Polymer Journal, Elsevier. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at: [http://dx.doi.org/10.1016/j.eurpolymj.2014.04.019]. 28 p. application/pdf |
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polydopamine nanosheets polyurethane nanocomposites shape memory polymer |
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polydopamine nanosheets polyurethane nanocomposites shape memory polymer Phua, Si Lei Yang, Liping Huang, Shu Ding, Guoqiang Zhou, Rui Lew, Jun Heng Lau, Soo Khim Yuan, Xiaowen Lu, Xuehong Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| description |
Two different sizes of polydopamine-coated layered double hydroxides (D-LDHs) are incorporated into polycaprolactone-based polyurethane (PU) to enhance the mechanical and shape memory properties of the PU. The results show that D-LDH interacts strongly with hard segments and hence enhancing phase separation between hard and soft segments. It is found that the tensile moduli of the PU/D-LDH nanocomposites are much higher than that of neat PU at 60 oC. In comparison with neat PU, the nanocomposite with 2 wt% of small D-LDH exhibits a 60% increase in recovery stress while shape fixity and strain recovery ratio are also improved simultaneously. This is because at low filler loading, most small D-LDH nanosheets interact with hard domains and they are not large enough to connect neighbor hard domains. They can hence reinforce the hard domains without sacrificing the elasticity of the system. Two-dimensional X-ray diffraction studies indicate that most small D-LDH nanosheets are able to rotate back from aligned state to original random state in shape recovery process, justifying the improved strain recovery ratio. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Phua, Si Lei Yang, Liping Huang, Shu Ding, Guoqiang Zhou, Rui Lew, Jun Heng Lau, Soo Khim Yuan, Xiaowen Lu, Xuehong |
| format |
Article |
| author |
Phua, Si Lei Yang, Liping Huang, Shu Ding, Guoqiang Zhou, Rui Lew, Jun Heng Lau, Soo Khim Yuan, Xiaowen Lu, Xuehong |
| author_sort |
Phua, Si Lei |
| title |
Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| title_short |
Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| title_full |
Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| title_fullStr |
Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| title_full_unstemmed |
Shape memory polyurethane with polydopamine-coated nanosheets: Simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| title_sort |
shape memory polyurethane with polydopamine-coated nanosheets: simultaneous enhancement of recovery stress and strain recovery ratio and the underlying mechanisms |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/82767 http://hdl.handle.net/10220/40338 |
| _version_ |
1772828922025607168 |