最大值的及达到此最大值的时间均随几何形状和表面热传导系数而变。
The magnitude of the maximum value, as well as the time to reach such maximum value, varies with geometry and surface heat-transfer coefficient.
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.
许多在常规尺度下不重要的因素如黏性耗散、轴向热传导和表面浸润性等都开始变的突出。
Many inessential factors are becoming more important, such as the viscous dissipation, axial conduction and surface wettability.
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