利用现有的接触理论和计算方法,在模型的接触处构造了间隙单元来求解接触压力。
The author used the contact theory to found the gap element, and used it to solve the contact force.
通过对该模型的分析表明:ccm单元内电极间的间隙越小,电荷倍增率越大。
The analysis of this model shows that if the interelectrode gap length in the CCM elements decreases, the rate of the charge multiplication increases.
相邻的闪烁体单元之间留有间隙,在这些间隙中填充白色漫反射材料、光吸收体、和可塑聚合物的复合物。
Adjacent scintillator elements are separated by gaps filled with a composition of white diffuse reflective material, a light absorber, and a castable polymer.
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