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INTERLAYER THERMAL BONDING MEMBER, INTERLAYER THERMAL BONDING METHOD, AND METHOD FOR PRODUCING THERMAL INTERLAYER BONDING MEMBER
INTERLAYER THERMAL BONDING MEMBER, INTERLAYER THERMAL BONDING METHOD, AND METHOD FOR PRODUCING THERMAL INTERLAYER BONDING MEMBER
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机译:层间热粘合构件,层间热粘合方法和生产热层间粘合构件的方法
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摘要
PROBLEM TO BE SOLVED: To provide an interlayer thermal bonding member which has higher performance than a conventional polymer/inorganic composite type interlayer thermal bonding member, an interlayer thermal bonding method, and a method for producing the interlayer thermal bonding member.;SOLUTION: The problem is solved by providing an interlayer thermal bonding member which is composed of a graphite film and a flowable material coating a surface of the graphite film, and setting a thickness of the graphite film of over 15 μm to 50 μm, a density of the graphite film of 1.40 to 2.26 g/cm3, a thermal conductivity of the graphite film in the film surface direction of 500 W/mK or more, and (A/B) of a range of from 0.01 to 4.0 which is a weight ratio of the flowable material (A) to the graphite film (B).;SELECTED DRAWING: Figure 2;COPYRIGHT: (C)2018,JPO&INPIT
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机译:解决的问题:提供一种具有比常规的聚合物/无机复合型层间热粘合构件更高的性能的层间热粘合构件,层间热粘合方法以及用于制造该层间热粘合构件的方法。通过提供一种层间热粘合构件来解决该问题,该层间热粘合构件由石墨膜和覆盖该石墨膜的表面的可流动材料组成,并且将石墨膜的厚度设定为超过15μm至50μm,并且石墨的密度为膜的厚度为1.40至2.26 g / cm 3 Sup>,石墨膜在膜表面方向的热导率为500 W / mK或更高,(A / B)的范围为0.01至4.0,它是可流动材料(A)与石墨膜(B)的重量比。;选定的图纸:图2;版权:(C)2018,JPO&INPIT
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