中文摘要：

为预测和控制摩擦过程,通过分析界面原子在界面势能场激励下的热振动,建立了基于摩擦界面热力耦合过程的滑动摩擦系数计算模型.计算分析表明：滑动摩擦系数随相对滑动速度增大而增大;当摩擦界面实际接触面积与载荷呈线性关系时,滑动摩擦系数与接触面积无关;当实际接触面积接近名义接触面积时,滑动摩擦系数随载荷的增加而减小;此外,滑动摩擦系数随晶格常数增大而降低,随原子质量减小而减小.

英文摘要：

In order to forecast and control the friction process, the thermal vibration of interfacial atoms stimulated by the interfacial potential energy field is analyzed, and a calculating model of sliding friction coefficient is established based on the thermal dynamic coupling process. Calculated results indicate that the sliding friction coefficient increases with the relative sliding velocity but has nothing to do with the real contact area of friction surface when the area linearly varies with the load. However, when the real contact area is close to the nominal one, the sliding friction coefficient decreases with the increase of the load, It is also found that, with the increase of crystal lattice constant and the decrease of atomic mass, the sliding friction coefficient decreases.