The Sol-Gel Process Simulated by Cluster-Cluster Aggregation

Abstract

The pair-correlation function g(r,t) and its Fourier transform, the structure factor S(q,t), are computed during the gelation process of identical spherical particles using the diffusion-limited cluster-cluster aggregation model in a box. This numerical analysis shows that the time evolution of the characteristic cluster size exhibits a crossover close to the gel time tg which depends on the volumic fraction c. In this model tg tends to infinity when the box size L tends to infinity. For systems of finite size, it is shown numerically that, when t<tg, the wave vector qm, at which S(q,t) has a maximum, decreases as S(qm,t)-1/D, where D is an apparent fractal dimension of clusters, as measured from the slo pe of S(q,t) . The time evolution of the mean number of particles per cluster n is also investigated. Our numerical results are in qualitative agreement with small angle scattering experiments in several systems.

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