Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene
High-melt-strength (HMS) polypropylene (PP) has enabled easy supercritical-CO2 (scCO2) foaming of PP. However, producing microcellular PP foams via simple scCO2 extrusion foaming still remains challenging, whereas macrocellular PP foams with high expansion ratios (ER) generally exhibit poor mechanic...
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sg-ntu-dr.10356-1656272023-07-14T15:46:23Z Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene Ho, Keen Hoe van Meurs, Martin Lu, Xuehong Lau, Soo Khim School of Materials Science and Engineering Singapore Institute of Manufacturing Technology Engineering::Materials Polypropylene Surfactant High-melt-strength (HMS) polypropylene (PP) has enabled easy supercritical-CO2 (scCO2) foaming of PP. However, producing microcellular PP foams via simple scCO2 extrusion foaming still remains challenging, whereas macrocellular PP foams with high expansion ratios (ER) generally exhibit poor mechanical strengths. In this study, to simultaneously enhance both ER and compressive strengths of macrocellular PP foams, a type of low-cost Janus molecules, heptaisobutyl open-cage silsesquioxane (HOS), is incorporated into HMS-PP. Since HOS has PP-philic groups and a partially condensed silsesquioxane cage that is relatively CO2-philic, it could diffuse like a surfactant to the PP-CO2 interface during scCO2 extrusion foaming to stabilise the cells in their growth stage and reinforce the cell surface upon solidification. The surfactant effect is validated via X-ray Photoelectron Spectroscopy. Moreover, with 1 wt% HOS, the PP/HOS foam could offer 38 % ER improvement, 23 % density reduction, and 20 % compressive strength increase over the neat PP foam. HOS could also slightly improve the extensional viscosity and melt strength of PP at ≤1 wt% loadings and reduce the shear viscosity of PP by acting as a lubricant. This approach provides a simple and economically viable materials design guideline for alleviating ER-compression strength trade-offs for macrocellular polymer foams. Agency for Science, Technology and Research (A*STAR) Nanyang Technological University Published version Ho Keen Hoe thanks Singapore Institute of Manufacturing Technology (SIMTech), Agency for Science, Technology and Research for providing his PhD scholarship. The authors thank Nanyang Technological University and SIMTech for providing financial support in the course of this work. 2023-04-04T07:19:55Z 2023-04-04T07:19:55Z 2022 Journal Article Ho, K. H., van Meurs, M., Lu, X. & Lau, S. K. (2022). Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene. Materials and Design, 224, 111345-. https://dx.doi.org/10.1016/j.matdes.2022.111345 0264-1275 https://hdl.handle.net/10356/165627 10.1016/j.matdes.2022.111345 2-s2.0-85141793860 224 111345 en Materials and Design © 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Engineering::Materials Polypropylene Surfactant Ho, Keen Hoe van Meurs, Martin Lu, Xuehong Lau, Soo Khim Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| description |
High-melt-strength (HMS) polypropylene (PP) has enabled easy supercritical-CO2 (scCO2) foaming of PP. However, producing microcellular PP foams via simple scCO2 extrusion foaming still remains challenging, whereas macrocellular PP foams with high expansion ratios (ER) generally exhibit poor mechanical strengths. In this study, to simultaneously enhance both ER and compressive strengths of macrocellular PP foams, a type of low-cost Janus molecules, heptaisobutyl open-cage silsesquioxane (HOS), is incorporated into HMS-PP. Since HOS has PP-philic groups and a partially condensed silsesquioxane cage that is relatively CO2-philic, it could diffuse like a surfactant to the PP-CO2 interface during scCO2 extrusion foaming to stabilise the cells in their growth stage and reinforce the cell surface upon solidification. The surfactant effect is validated via X-ray Photoelectron Spectroscopy. Moreover, with 1 wt% HOS, the PP/HOS foam could offer 38 % ER improvement, 23 % density reduction, and 20 % compressive strength increase over the neat PP foam. HOS could also slightly improve the extensional viscosity and melt strength of PP at ≤1 wt% loadings and reduce the shear viscosity of PP by acting as a lubricant. This approach provides a simple and economically viable materials design guideline for alleviating ER-compression strength trade-offs for macrocellular polymer foams. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Ho, Keen Hoe van Meurs, Martin Lu, Xuehong Lau, Soo Khim |
| format |
Article |
| author |
Ho, Keen Hoe van Meurs, Martin Lu, Xuehong Lau, Soo Khim |
| author_sort |
Ho, Keen Hoe |
| title |
Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| title_short |
Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| title_full |
Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| title_fullStr |
Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| title_full_unstemmed |
Interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid Janus molecules in extrusion supercritical CO₂ foaming of polypropylene |
| title_sort |
interfacial stabilizing and reinforcing effects of silsesquioxane-based hybrid janus molecules in extrusion supercritical co₂ foaming of polypropylene |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/165627 |
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1772825435061616640 |