Performance of 3D-printed fuel cells and stacks

机译：3D打印燃料电池和电池堆的性能

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Additive manufacturing (AM) is being touted as a possible tool for rapid prototyping fuel cell bipolar plate (BPP) designs. We use the AM method of direct metal laser sintering (DMLS) to make 21 cm~2 titanium-alloy BPPs with embedded flow channels. The surface of the BPPs is then polished to the appropriate roughness and coated with a conductive corrosion barrier. The coated BPPs are assembled with the appropriate seals, catalyst coated membranes and gas diffusion layers into a 40-cell stack and tested. The resulting 400 W fuel cell stack power is 20% less than expected because of inadequate flatness of several of the DMLS BPPs as determined by white light profilometry, leading to high contact resistance. While DMLS clearly shows the benefit of being able to make complex flow fields and hollow parts with no welds, more work is needed toward reducing the weight and increasing the flatness of BPPs made by AM.

机译：增材制造（AM）被吹捧为快速原型化燃料电池双极板（BPP）设计的一种可能工具。我们采用直接金属激光烧结（DMLS）的增材制造方法，制造了具有嵌入式流道的21 cm〜2钛合金BPP。然后将BPP的表面抛光至适当的粗糙度，并涂上导电防腐蚀层。带涂层的BPP与适当的密封件，带催化剂涂层的膜和气体扩散层组装成40个电池的电池堆并进行测试。最终的400 W燃料电池堆功率比预期的要低20％，这是因为通过白光轮廓测定法确定的几种DMLS BPP的平坦度不足，导致了高接触电阻。尽管DMLS清楚地表明了能够制造复杂的流场和中空零件而无需焊接的好处，但仍需要做更多的工作来减轻AM制造的BPP的重量并增加其平整度。

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《Polymer electrolyte fuel cells symposium;Meeting of the Electrochemical Society》|2014年|935-944|共10页
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Benjamin D. Gould; Joseph A. Rodgers; Michael Schuette; Keith Bethune; Shaquille Louis; Richard Rocheleau; Karen Swider-Lyons;
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Performance of 3D-printed fuel cells and stacks

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