Affiliation:
1. Georgia Institute of Technology
2. Lebanese American University
Abstract
Abstract
Temperature primarily influences thermal elastohydrodynamic lubrication (TEHL) through the temperature dependence of the viscosity of the liquid. The pressure and temperature dependences of viscosity increase rapidly as the glassy state is approached from the liquid state, a property known as fragility. The glass temperature increases with pressure and reaches to ordinary temperatures at TEHL pressures. It is astounding, therefore, that most TEHL analyses have ignored fragility by utilizing a viscosity correlation incapable of describing this behavior. Here, a low viscosity fragile oil is characterized for low-shear viscosity to 1.6 GPa and TEHL line contact simulations show, not only a substantial effect on friction, but significant differences in minimum film thickness when fragility is not ignored, as is customary in classical TEHL. The influence on friction manifests even under moderate load and speed conditions, while that on film thickness seems to be restricted to high loads.
Publisher
Research Square Platform LLC
Reference30 articles.
1. Harrison, G. (1976). The dynamic properties of supercooled liquids. London and New York.
2. Relaxation in liquids, polymers and plastic crystals—strong/fragile patterns and problems;Angell CA;Journal of Non-Crystalline Solids,1991
3. Effect of pressure on fragility and glass transition temperature in fragile glass-former;Paluch M;The Journal of chemical physics,1999
4. Viscous heating in compressed liquid films;Bair S;Tribology Letters,2020
5. Dynamical model of the liquid-glass transition;Leutheusser E;Physical Review A,1984