研究磁性液体薄膜在不同磁场下的形貌变化。
The morphologies of magnetofluid films were observed in different applied magnetic fields.
它由砂轮的转速及接触区域的液体薄膜的厚度决定。
The value is determined by the grinding wheel speed and the fluid film thickness within the contact zone.
本文以分子动力学方法模拟了纳米级液体薄膜的流变特性。
The rheological behavior of nanometer-thick liquid film has been predicted by Molecular Dynamics Simulation.
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