Department of Mechanical and Materials Engineering, Universiti Kebangsaan Malayasia, 43600 Bangi, Selangor, Malaysia
FUEL CELL PLATE MATERIALS AND MANUFACTURE
FUEL CELL INSTITUTE
UNIVERSITI KEBANGSAAN MALAYSIA
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FUEL CELL PLATE MATERIALS AND MANUFACTURE FUEL CELL INSTITUTE UNIVERSITI KEBANGSAAN MALAYSIA |
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Electrical properties of carbon-based polypropylene composites for bipolar plates in polymer electrolyte membrane fuel cell (PEMFC) Radwan Dweiri and Jaafar Sahari Department of Mechanical and Materials Engineering, Universiti Kebangsaan Malayasia, 43600 Bangi, Selangor, Malaysia Received 4 March 2007; accepted 8 May 2007. Available online 23 June 2007. AbstractAn investigation is made of the electrical properties of polypropylene/graphite (PP/G) composites as prospective replacements for the traditional graphite bipolar plate in proton-exchange membrane fuel cells. The composites have relatively low electrical conductivities, i.e., up to 28 S cm−1 at 90 wt.% G. Combination of G with carbon black (CB) is an effective way to develop higher conductivity composites. The conductivity reaches 35 S cm−1 by combination of 25 wt.% CB and 55 wt.% G to 20 wt.% PP. This is five times the value at 80 wt.% G and 20 wt.% PP (7 S cm−1). Two methods are mainly adopted for the preparation of composites, namely, melt compounding and solution blending. Solution blending of PP with conductive fillers followed by moulding of the dried powder leads to higher conductivities compared with those of melt-compounded composites. The combination of conjugated conducting polymers such as polyaniline (PANi) with the PP, G, and CB is also investigated. It is found that composites containing PANi have lower conductivities than those of the neat composites. This decrease in conductivity is attributed to the poor thermal stability of PANi.
Keywords: Composites; Graphite; Carbon black; Polyaniline;
Bipolar plate; Proton-exchange membrane fuel cells
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