Rheology of concentrated suspensions
- 1 August 1971
- journal article
- research article
- Published by Wiley in Journal of Applied Polymer Science
- Vol. 15 (8) , 2007-2021
- https://doi.org/10.1002/app.1971.070150818
Abstract
The dependence of the viscosities of highly concentrated suspensions on solids concentrations and particle size distributions is investigated by using an orifice viscometer. Based on the extensive amount of data on pertinent systems, an empirical equation which correlates the relative viscosities of suspensions (or relative moduli of filled polymeric materials) as a function of solids concentrations and particle size distributions is proposed. The equation has a constant which characterizes size distributions of spherical particles and can be determined experimentally without measuring viscosities. For uniform‐size spherical particles, it reduces to the well‐known Einstein equation at dilute solids concentrations.Keywords
This publication has 17 references indexed in Scilit:
- Flow of viscous fluid through a circular apertureJournal of Applied Polymer Science, 1971
- The physical interaction of spherical particles in suspensionsRheologica Acta, 1961
- The tensile properties of highly filled polymers. Effect of filler concentrationsJournal of Applied Polymer Science, 1960
- On the rheology of concentrated dispersionsRheologica Acta, 1958
- Viscous flow in multiparticle systems: Slow motion of fluids relative to beds of spherical particlesAIChE Journal, 1958
- The Dynamic Mechanical Properties of a Model Filled System: Polyisobutylene-Glass BeadsTransactions of the Society of Rheology, 1958
- Viscosity of suspensions of spherical and other isodimensional particles in liquidsAIChE Journal, 1957
- The Viscosity of Suspensions of Spheres. III. Sediment Volume as a Determining ParameterTransactions of the Society of Rheology, 1957
- The Rheology of SuspensionsJournal of Applied Physics, 1954
- Flow of concentrated suspensionsJournal of Chemical Technology & Biotechnology, 1953