Journal of Power Sources, Vol.175, No.1, 390-396, 2008
Study on the mesocarbon microbeads/polyphenylene sulfide composite bipolar plates applied for proton exchange membrane fuel cells
Thermoplastic/graphite composite bipolar plates based on polyphenylene sulfide (PPS) and mesocarbon microbeads (MCMB) were prepared by compression molding at a pressure of 40 MPa and 400 degrees C. Electrical conductivity, bulk density, flexural strength, water and ethanol absorption were determined as function of PPS content. The influences of molding time, actived carbon and carbon fiber on the properties of the composite bipolar plates were investigated, the cross section of the composite plates were analyzed by scanning electron microscope (SEM). We found that the optimized PPS content is 20 wt% and the required molding time is 30 min. In particular, the composite plates containing 20 wt% PPS demonstrated in-plane conductivity as high as 133.7 S cm(-1), through-plane conductivity 21.37 S cm(-1), in addition to showing the value of density, flexural strength, water and ethanol absorption as 1.98 g cm(-3), 38.82 MPa, 0.0409 and 0.352 g cm(-3). The addition of actived carbon degraded all the performance of the bipolar plate, while addition of carbon fiber improved almost all the performance of bipolar plate except bulk density and through-plane conductivity. The performances of fuel cell with this composite bipolar plate were tested, no distinct variation occurred after the composite plates operating in fuel cell. These data indicates the chemical and mechanical stability of the composite plates and their potential application in fuel cell. (C) 2007 Elsevier B.V. All rights reserved.
Keywords:proton exchange membrane fuel cell;polyphenylene sulfide;mesocarbon microbeads;composite bipolar plate