Pressure and Temperature Effects on the Viscosity of Liquids
- 1 January 1940
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 11 (1) , 75-80
- https://doi.org/10.1063/1.1712709
Abstract
The free energy of activation for viscous flow is related to an entropy and energy of activation by the same equations as any equilibrium. This, for the theory of viscosity is perfectly general and independent of the mechanism. The rolling over each other of pairs of molecules lying in adjoining layers is the mechanism which appears to be the most probable, and the equations for this bimolecular flow process are developed here. At low pressures the heat of activation for viscous flow is about one‐third the energy of vaporization, but as the pressure is raised, it increases rapidly because of the work term, P V/n′. Here P is the external pressure, V is molal volume and V/n′ is the extra volume required before the flow process can take place. Calculations made for n‐pentane, ether, benzene, iso‐pentane, water, and mercury over as extended a temperature and pressure range as the data permit are found to agree satisfactorily with the experimental viscosity. The results are interpreted in terms of the liquid structure and the mechanism of viscous flow. The results of applying our theory to the liquids for which the necessary data is available show that the effect of pressure on viscosity can be calculated a priori, with thermodynamic data only, with reasonable success.This publication has 11 references indexed in Scilit:
- Free Volumes and Free Angle Ratios of Molecules in LiquidsThe Journal of Chemical Physics, 1938
- A Theory of Liquid StructureThe Journal of Chemical Physics, 1937
- Theory of the Viscosity of Liquids as a Function of Temperature and PressureThe Journal of Chemical Physics, 1937
- The Viscosity of Raw RubberJournal of Applied Physics, 1937
- Viscosity, Plasticity, and Diffusion as Examples of Absolute Reaction RatesThe Journal of Chemical Physics, 1936
- The Absolute Rate of Reactions in Condensed PhasesThe Journal of Chemical Physics, 1935
- The Activated Complex in Chemical ReactionsThe Journal of Chemical Physics, 1935
- Some applications of the transition state method to the calculation of reaction velocities, especially in solutionTransactions of the Faraday Society, 1935
- A Theory of Water and Ionic Solution, with Particular Reference to Hydrogen and Hydroxyl IonsThe Journal of Chemical Physics, 1933
- SONIC STUDIES OF THE PHYSICAL PROPERTIES OF LIQUIDS. I. THE SONIC INTERFEROMETER. THE VELOCITY OF SOUND IN SOME ORGANIC LIQUIDS AND THEIR COMPRESSIBILITIES1Journal of the American Chemical Society, 1929