Scale-up production of lightweight high-strength polystyrene/carbonaceous filler composite foams with high-performance electromagnetic interference shielding

•An extrusion foaming strategy was applied to prepare PS foams for EMI shielding.•The foams showed elongated structure, good strength and excellent conductivity.•The foams presented a remarkable high performance of EMI shielding efficiency. Conductive polymer composite (CPC) foams have been consider...

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Veröffentlicht in:	Materials letters 2018-11, Vol.230, p.157-160
Hauptverfasser:	Min, Zhiyu, Yang, Hao, Chen, Feng, Kuang, Tairong
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Sprache:	eng
Schlagworte:	Blowing agents Carbon dioxide Compressive strength Electrical properties Electrical resistivity Electromagnetic shielding Electromagnetics EMI shielding Extrusion Foaming Lightweight Low cost Materials science Microstructure Morphology Multi wall carbon nanotubes Plastic foam Polymer matrix composites Polystyrene Polystyrene resins Porous materials Weight reduction
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creator	Min, Zhiyu Yang, Hao Chen, Feng Kuang, Tairong
description	•An extrusion foaming strategy was applied to prepare PS foams for EMI shielding.•The foams showed elongated structure, good strength and excellent conductivity.•The foams presented a remarkable high performance of EMI shielding efficiency. Conductive polymer composite (CPC) foams have been considered as a promising electromagnetic interference (EMI) shielding materials because of the advantages of the lightweight, low-cost and easy preparation process. However, most of the currently reported CPC foams were prepared by batch foaming process. Insight of large-scale and low-cost production of CPC foams, we presented a feasible extrusion foaming strategy of polystyrene (PS) composites with micro-graphite (mGr) or multi-wall carbon nanotube (MWCNT) using supercritical carbon dioxide (Sc-CO2) as the physical blowing agent for EMI shielding application. The composite foams showed elongated cell morphology; meanwhile, the compressive strength and electrical conductivity were significantly increased. These composite foams presented a remarkable high performance of EMI shielding efficiency, corresponding average EMI SE of 22 dB and specific EMI SE of 92 dB/(g/cm3). In comparison between mGr and MWCNT, PS/mGr composite foams showed better EMI SE than that of PS/MWCNT composite foams at the same filler content due to the lower foam density of PS/mGr composite foams. Considering the feasible, large-scale and low-cost production process, these CPC foams are expected to apply in high performance EMI shielding areas.
doi_str_mv	10.1016/j.matlet.2018.07.094
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Conductive polymer composite (CPC) foams have been considered as a promising electromagnetic interference (EMI) shielding materials because of the advantages of the lightweight, low-cost and easy preparation process. However, most of the currently reported CPC foams were prepared by batch foaming process. Insight of large-scale and low-cost production of CPC foams, we presented a feasible extrusion foaming strategy of polystyrene (PS) composites with micro-graphite (mGr) or multi-wall carbon nanotube (MWCNT) using supercritical carbon dioxide (Sc-CO2) as the physical blowing agent for EMI shielding application. The composite foams showed elongated cell morphology; meanwhile, the compressive strength and electrical conductivity were significantly increased. These composite foams presented a remarkable high performance of EMI shielding efficiency, corresponding average EMI SE of 22 dB and specific EMI SE of 92 dB/(g/cm3). In comparison between mGr and MWCNT, PS/mGr composite foams showed better EMI SE than that of PS/MWCNT composite foams at the same filler content due to the lower foam density of PS/mGr composite foams. 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Conductive polymer composite (CPC) foams have been considered as a promising electromagnetic interference (EMI) shielding materials because of the advantages of the lightweight, low-cost and easy preparation process. However, most of the currently reported CPC foams were prepared by batch foaming process. Insight of large-scale and low-cost production of CPC foams, we presented a feasible extrusion foaming strategy of polystyrene (PS) composites with micro-graphite (mGr) or multi-wall carbon nanotube (MWCNT) using supercritical carbon dioxide (Sc-CO2) as the physical blowing agent for EMI shielding application. The composite foams showed elongated cell morphology; meanwhile, the compressive strength and electrical conductivity were significantly increased. These composite foams presented a remarkable high performance of EMI shielding efficiency, corresponding average EMI SE of 22 dB and specific EMI SE of 92 dB/(g/cm3). In comparison between mGr and MWCNT, PS/mGr composite foams showed better EMI SE than that of PS/MWCNT composite foams at the same filler content due to the lower foam density of PS/mGr composite foams. 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Conductive polymer composite (CPC) foams have been considered as a promising electromagnetic interference (EMI) shielding materials because of the advantages of the lightweight, low-cost and easy preparation process. However, most of the currently reported CPC foams were prepared by batch foaming process. Insight of large-scale and low-cost production of CPC foams, we presented a feasible extrusion foaming strategy of polystyrene (PS) composites with micro-graphite (mGr) or multi-wall carbon nanotube (MWCNT) using supercritical carbon dioxide (Sc-CO2) as the physical blowing agent for EMI shielding application. The composite foams showed elongated cell morphology; meanwhile, the compressive strength and electrical conductivity were significantly increased. These composite foams presented a remarkable high performance of EMI shielding efficiency, corresponding average EMI SE of 22 dB and specific EMI SE of 92 dB/(g/cm3). 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source	Elsevier ScienceDirect Journals
subjects	Blowing agents Carbon dioxide Compressive strength Electrical properties Electrical resistivity Electromagnetic shielding Electromagnetics EMI shielding Extrusion Foaming Lightweight Low cost Materials science Microstructure Morphology Multi wall carbon nanotubes Plastic foam Polymer matrix composites Polystyrene Polystyrene resins Porous materials Weight reduction
title	Scale-up production of lightweight high-strength polystyrene/carbonaceous filler composite foams with high-performance electromagnetic interference shielding
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