Microcellular foaming of poly(phenylene sulfide)/poly(ether sulfones) blends using supercritical carbon dioxide |
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Authors: | Zhonglei Ma Guangcheng Zhang Xuetao Shi Quan Yang Jiantong Li Yang Liu Xiaolong Fan |
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Affiliation: | Department of Applied Chemistry, MOE Key Lab of Applied Physics and Chemistry in Space, School of Science, Northwestern Polytechnical University, Xi'an, People's Republic of China |
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Abstract: | Microcellular foaming of poly(phenylene sulfide)/poly(ether sulfones) (PPS/PES) blends presents a promising approach to produce high‐performance cellular materials with tailored microstructures and enhanced properties. This study investigated the effects of multiphase blend composition and process conditions on the foaming behaviors and final cellular morphology, as well as the dynamic mechanical properties of the solid and microcellular foamed PPS/PES blends. The microcellular materials were prepared via a batch‐foam processing, using the environment‐friendly supercritical CO2 (scCO2) as a blowing agent. The saturation and desorption behaviors of CO2 in PPS/PES blends for various blend ratios (10 : 0, 8 : 2, 6 : 4, 5 : 5, 4 : 6, 2 : 8, and 0 : 10) were also elaborately discussed. The experimental results indicated that the foaming behaviors of PPS/PES blends are closely related to the blend morphology, crystallinity, and the mass‐transfer rate of the CO2 in each polymer phase. The mechanisms for the foaming behaviors of PPS/PES blends have been illustrated by establishing theoretical models. © 2015 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2015 , 132, 42634. |
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Keywords: | dynamic mechanical properties mechanism microcellular foams microstructure PPS/PES blends supercritical CO2 |
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