研究了两个不同温度的圆柱体在相互热压时,其间的接触热传导系数与热工件的初始温度及压力之间的关系。
The purpose of this article is to study the relation of the interface heat transfer coefficient with initial temperature of specimen and pressure as two non-isothermal cylinders contact each other.
还有,为了暴露出铜—殷钢—铜以便与热传导体接触,使用二氧化碳激光器把绝缘材料从印制板边缘除去。
Also, dielectric was removed from the edges of PWBs using a carbon dioxide laser to expose the CIC for attachment of a heat transfer connector.
产品层被流化后固体颗粒和气体之间的接触面积大大增加。热传导的速度非常快。
The large contact area in the fluidized bed provides a rapid heat transfer between solid particles and gas.
研究了非等温圆柱体热压时的传热规律,并计算出接触表面热传导系数值。
The heat transfer coefficient at the contacting surface of two specimen was calculated.
两种不同固体材料相互接触所形成的接触面的热传导与热流的方向有关,这种现象称为热整流现象。
The heat conducting of the interface of two different kinds of solid materials has something to do with the direction of thermal current. Such a phenomenon is called heat rectification.
两种不同固体材料相互接触所形成的接触面的热传导与热流的方向有关,这种现象称为热整流现象。
The heat conducting of the interface of two different kinds of solid materials has something to do with the direction of thermal current. Such a phenomenon is called heat rectification.
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