中文摘要：

摩擦与润滑过程是典型的能量耗散过程，在机理上与非平衡热力学中的熵增、耗散结构等理论颇有相似之处．通过热力学分析可以对一些典型的摩擦磨损过程做出合理的机理揭示与推测．本文利用热力学理论对典型的润滑过程进行了建模分析．采用分离压模型表征和计入了微尺度下的固液界面作用，揭示分析了润滑热力学模型与润滑状态Stribeck曲线的联系．从分析计算结果来看，润滑Stribeck曲线的摩擦系数最低点与系统热力学上的熵增率最低点具有相当好的对应关系，而润滑状态从弹流润滑向薄膜润滑的转变过程，可以用耗散结构理论加以机理解释．文中的热力学模型和方法能够有效地体现出润滑过程中多物理要素跨尺度非线性耦合的作用，对实际工程与实验有着重要的指导作用．

英文摘要：

Friction or lubrication process is a typical process of the energy dissipation. It can be reasonably described and speculated by using the entropy increase and dissipative structure theory of the non-equilibrium thermodynamics. In this paper, we model and analyze the typical thin-film lubrication mechanism based on the theory of thermodynamics, by using the interfacial disjoining pressure to characterize the dominant role of the solid-lubricant interaction on a microscale and establishing the lubrication Stribeck curve based on thermodynamic concepts. The concept of entropy production is adopted to describe the lubrication system, which is defined as the sum of multiplications of the thermodynamic forces and flows. Then the variations and the competing relations between the pairs of thermodynamic forces and flows could be used to reveal the different factors dominated in the lubrication system, such as the solid-liquid interaction, the sliding velocity, and the normal load. In this paper, we assume that all the dissipated energy caused by the viscous resistance of lubricant is converted into heat, then the total entropy increase per surface area at the frictional interface is considered, affected by interfacial disjoining pressure and the one-dimensional heat flow. With the entropy increasing analysis of lubrication process, we find that when the entropy production in the steady state becomes minimum, the total energy dissipation due to friction also becomes minimum, which directly indicates the lowest friction coefficient point at the lubrication Stribeck curve. Moreover, when a lubrication system loses its stability slightly from the equilibrium state, self-organization may occur at the solid-lubricant interface, thus resulting in partially ordering interfacial structures, which may indicate the interfacial structures when tribosystem turns from hydrodynamic lubrication phase into thin- film lubrication phase. In the experimental aspect, the location of the lowest friction coefficient point at the Stribeck curv