Wspólnotowy Serwis Informacyjny Badan i Rozwoju - CORDIS

Computer simulation of the properties of particulate dispersions

A computational model of the behaviour of strongly interacting colloidal particulate dispersions has been developed. A molecular dynamic approach has been used, which allows the dynamic properties of the dispersions to be calculated. Standard hydrodynamic expressions are used to model the interaction between the particle and the fluid. The model can be used to calculate physical microstructures within the particulate dispersion and in particular its response to an applied magnetic field. It should be stressed that although the model has been specifically developed for a magnetic system, its application to non-magnetic colloidal dispersions, or dispersions of electrically active materials, is relatively straightforward. Overall, the microstructure of the particulate dispersion consists of small strongly bound aggregates of particles which themselves interact to give an extensive particle network which is the likely cause of the observed viscoelastic behaviour of particulate dispersions. In particular the yield point of the dispersion is likely to be associated with the break-up of the network itself and represent the energy of interaction between the aggregates. The application of an aligning magnetic field gives rise to extensive chain structures having some features of smectic ordering. We have also used the model to develop a simulation of the coating process of magnetic recording media. An important feature of the simulation is that clustering in the high magnetic field phase leads to channels of depleted particle density which can provide channels through which solvent can escape, thus speeding up the drying process. These channels are shown to persist into the final coating as voids which themselves could give rise to noise in the final recorded signal. The model has reached a high level of technical sophistication and has the advantage that it can be used to make a study of parts of the production process for which measurement is difficult, for example the high shear coating process itself.

Reported by

University of Wales, Bangor
Dean Street
LL57 1UT Bangor
United Kingdom
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