论文信息 - High‐Frequency Elastic Moduli of Simple Fluids

High‐Frequency Elastic Moduli of Simple Fluids

This article presents a calculation of the infinite‐frequency elastic moduli of monatomic fluids. When the intermolecular potential has the standard Lennard‐Jones form, the elastic moduli are shown to be related to the pressure and internal energy of the fluid. Numerical values of the elastic moduli at various densities and temperatures are presented in tabular and graphical form. An identity is derived relating the shear and bulk moduli of any isotropic material in which particles interact by means of two‐body central forces; this is a generalization of the familiar Cauchy identity occurring in the theory of elasticity of solids. The approach is based on analysis of the high‐frequency limit of exact time‐correlation function expressions for shear and bulk viscosity.

R. Zwanzig | R. Mountain

[1] H. S. Green. The molecular theory of fluids , 1970 .

[2] R. Zwanzig. Frequency‐Dependent Transport Coefficients in Fluid Mechanics , 1965 .

[3] J. McLennan,et al. Statistical Mechanics of Viscoelasticity , 1965 .

[4] R. Puff. Application of Sum Rules to the Low-Temperature Interacting Boson System , 1965 .

[5] J. McLennan. Comment on the Theory of Transport Coefficients , 1963 .

[6] J. McLennan. Statistical Mechanics of Transport in Fluids , 1960 .

[7] J.M.H. Levelt,et al. The reduced equation of state, internal energy and entropy of argon and xenon , 1960 .

[8] Karl F. Herzfeld,et al. Bulk Viscosity and Shear Viscosity in Fluids According to the Theory of Irreversible Processes , 1958 .

[9] M. De. Handbuch der Physik , 1957 .

[10] Melville S. Green,et al. Markoff Random Processes and the Statistical Mechanics of Time‐Dependent Phenomena. II. Irreversible Processes in Fluids , 1954 .

[11] John S. Rowlinson,et al. Liquids and liquid mixtures , 1959 .

[12] Clifford Ambrose Truesdell,et al. The mechanical foundations of elasticity and fluid dynamics , 1952 .

[13] J. Frankel. Kinetic theory of liquids , 1946 .