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    • 7. 发明授权
    • Fuel cell separator and fuel cell of solid polymer type
    • 燃料电池分离器和固体聚合物型燃料电池
    • US06593021B1
    • 2003-07-15
    • US09692106
    • 2000-10-20
    • Kazuo SaitoAtsushi HagiwaraAyumi Horiuchi
    • Kazuo SaitoAtsushi HagiwaraAyumi Horiuchi
    • H01M200
    • H01M8/0213H01M2300/0082
    • Fuel cell separators having on one side or both sides thereof channels for gas supply and discharge, which channels are formed from compositions composed mainly of thermosetting resin and graphite particles. The compositions are designed to have a flexural modulus of at most 20 GPa and a flexural strength of at least 50 MPa (both measured according to JIS K6911). Also disclosed is a solid polymer type fuel cell system in which part or all of its separators are fuel cell separators as defined above. Due to its high strength and low flexural modulus, the fuel cell separators of the invention do not break as a result of deformation at the time of fuel cell assembly. Moreover, the fuel cell separators of the invention absorb shocks and vibration imparted to the fuel cell system. Therefore, they is useful for automobile fuel cells which are normally subject to vibrations and shocks during operation.
    • 燃料电池分离器在其一侧或两侧具有用于气体供给和排出的通道,该通道由主要由热固性树脂和石墨颗粒组成的组合物形成。 该组合物设计为具有至多20GPa的弯曲模量和至少50MPa的弯曲强度(均根据JIS K6911测量)。 还公开了固体聚合物型燃料电池系统,其中部分或全部分离器是如上所述的燃料电池分离器。 由于其高强度和低弯曲模量,本发明的燃料电池隔板由于燃料电池组装时的变形而不会破裂。 此外,本发明的燃料电池分离器吸收对燃料电池系统施加的冲击和振动。 因此,它们对于在运行中通常受到振动和冲击的汽车燃料电池是有用的。
    • 9. 发明授权
    • Fuel cell separator and production method thereof
    • 燃料电池分离器及其制造方法
    • US06494926B1
    • 2002-12-17
    • US09658527
    • 2000-09-09
    • Kazuo SaitoAtsushi Hagiwara
    • Kazuo SaitoAtsushi Hagiwara
    • H01M802
    • H01M8/0226H01M8/0213H01M8/0221H01M8/0263H01M10/54Y02P70/56Y02W30/84Y10T29/49108
    • A fuel cell separator made of conductive material and resin wherein the conducive material is recycled from waste of fuel cell separators. The fuel cell separator consisting of conductive material and resin is made by using the waste of fuel cell separator consisting of conductive material and resin. The waste of fuel cell separator is pulverized to powder and is mixed with unused resin and, if necessary, supplemental conductive material, to establish powdered material. The powdered material is molded under the predetermined molding pressure and temperature. The fuel cell separators using the recycled material are comparable to fuel cell separators made solely from new material. In another aspect, a method of producing a fuel cell separator using the recycled material is disclosed.
    • 由导电材料和树脂制成的燃料电池隔板,其中导电材料由燃料电池隔板的废物再循环。 由导电材料和树脂组成的燃料电池隔板由使用由导电材料和树脂组成的燃料电池隔板的废料制成。 将燃料电池分离器的废物粉碎成粉末,并与未使用的树脂混合,并根据需要与辅助导电材料混合以形成粉末状材料。 将粉末状材料在预定的成型压力和温度下成型。 使用回收材料的燃料电池分离器与仅由新材料制成的燃料电池分离器相当。 在另一方面,公开了使用再循环材料制造燃料电池隔板的方法。