Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam
The CO2 batching foaming behavior of heterografted comb copolymers (PS-g-(PS/PE)) with high branching density, which consisted of mixed polystyrene (PS) and semicrystalline polyethylene (PE) branching chains linked to PS backbone, were explored. Especially the effect of foaming temperature on CO2 ba...
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sg-ntu-dr.10356-1377612020-04-14T02:07:00Z Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam Zhang, Shaofeng Lin, Yichao Ye, Lin Gu, Yang Qiu, Jian Tang, Tao Li, Minggang School of Physical and Mathematical Sciences Science::Chemistry Comb-like Copolymer Cell Structure The CO2 batching foaming behavior of heterografted comb copolymers (PS-g-(PS/PE)) with high branching density, which consisted of mixed polystyrene (PS) and semicrystalline polyethylene (PE) branching chains linked to PS backbone, were explored. Especially the effect of foaming temperature on CO2 batching foaming behavior of PS-g-(PS/PE) copolymers was deeply studied. Under the same saturation pressure and time (CO2 pressure: 13.3 MPa; saturation time: 5.5 h), the state of the samples changed with the foaming temperature (50–110 °C) from solid state to semi-solid state and finally melt state, resulting in different foaming behavior. When the foaming temperature was lower than 50 °C, all the samples (solid state) did not form foamed or porous structures. At above 60 °C, the foaming behavior of the samples strongly depended on the foaming temperature. Very surprisingly, at 60 °C, PS-g-(PS/PE) copolymers with lamellar microphase structure easily formed bimodal nanoporous structure (open-cell) composed of nanofibers, while PS-g-(PS/PE) copolymers with cylindric microphase structure also formed bimodal porous structure with larger size, but the open degree of cell wall was decreased, in which the nanofibers almost disappeared and a lot of nanosized domains appeared. When the foaming temperature was higher than 70 °C, the cell size increased and the cell density decreased with increasing foaming temperature. Furthermore, the cell structure changed from opened (porous) structure to closed structure when the foaming temperature rose, which was different from the results in the previous reports. The influence of foaming temperature on the foaming behavior of PS-g-(PS/PE) copolymers was discussed. 2020-04-14T02:07:00Z 2020-04-14T02:07:00Z 2018 Journal Article Zhang, S., Lin, Y., Ye, L., Gu, Y., Qiu, J., Tang, T., & Li, M. (2018). Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam. Polymer, 146, 304-311. doi:10.1016/j.polymer.2018.05.050 0032-3861 https://hdl.handle.net/10356/137761 10.1016/j.polymer.2018.05.050 2-s2.0-85047441857 146 304 311 en Polymer © 2018 Elsevier Ltd. All rights reserved. |
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Science::Chemistry Comb-like Copolymer Cell Structure Zhang, Shaofeng Lin, Yichao Ye, Lin Gu, Yang Qiu, Jian Tang, Tao Li, Minggang Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| description |
The CO2 batching foaming behavior of heterografted comb copolymers (PS-g-(PS/PE)) with high branching density, which consisted of mixed polystyrene (PS) and semicrystalline polyethylene (PE) branching chains linked to PS backbone, were explored. Especially the effect of foaming temperature on CO2 batching foaming behavior of PS-g-(PS/PE) copolymers was deeply studied. Under the same saturation pressure and time (CO2 pressure: 13.3 MPa; saturation time: 5.5 h), the state of the samples changed with the foaming temperature (50–110 °C) from solid state to semi-solid state and finally melt state, resulting in different foaming behavior. When the foaming temperature was lower than 50 °C, all the samples (solid state) did not form foamed or porous structures. At above 60 °C, the foaming behavior of the samples strongly depended on the foaming temperature. Very surprisingly, at 60 °C, PS-g-(PS/PE) copolymers with lamellar microphase structure easily formed bimodal nanoporous structure (open-cell) composed of nanofibers, while PS-g-(PS/PE) copolymers with cylindric microphase structure also formed bimodal porous structure with larger size, but the open degree of cell wall was decreased, in which the nanofibers almost disappeared and a lot of nanosized domains appeared. When the foaming temperature was higher than 70 °C, the cell size increased and the cell density decreased with increasing foaming temperature. Furthermore, the cell structure changed from opened (porous) structure to closed structure when the foaming temperature rose, which was different from the results in the previous reports. The influence of foaming temperature on the foaming behavior of PS-g-(PS/PE) copolymers was discussed. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Zhang, Shaofeng Lin, Yichao Ye, Lin Gu, Yang Qiu, Jian Tang, Tao Li, Minggang |
| format |
Article |
| author |
Zhang, Shaofeng Lin, Yichao Ye, Lin Gu, Yang Qiu, Jian Tang, Tao Li, Minggang |
| author_sort |
Zhang, Shaofeng |
| title |
Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| title_short |
Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| title_full |
Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| title_fullStr |
Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| title_full_unstemmed |
Unexpected foaming behavior of heterografted comb-like PS-g-(PS/PE) copolymers with high branching density at semi-solid state under CO<inf>2</inf> batching foam |
| title_sort |
unexpected foaming behavior of heterografted comb-like ps-g-(ps/pe) copolymers with high branching density at semi-solid state under co<inf>2</inf> batching foam |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/137761 |
| _version_ |
1681057995788648448 |