Rheological behaviour of aqueous suspensions of laponite: new insights into the ageing phenomenon

Joshi, Yogesh M. ; Reddy, G. Ranjith K. ; Kulkarni, Ajit L. ; Kumar, Nishant ; Chhabra, Raj P. (2008) Rheological behaviour of aqueous suspensions of laponite: new insights into the ageing phenomenon Proceedings of the Royal Society A: Mathematical, Physical & Engineering Sciences, 464 (2009). pp. 469-489. ISSN 1364-5021

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Official URL: http://rspa.royalsocietypublishing.org/content/464...

Related URL: http://dx.doi.org/10.1098/rspa.2007.0250

Abstract

In this paper, the ageing behaviour of suspensions of laponite with varying salt concentration is investigated using rheological tools. It is observed that ageing is accompanied by an increase in the complex viscosity. The creep experiments performed at various ages show damped oscillations in the strain. The characteristic time scale of the damped oscillations, the retardation time, shows a prominent decrease with increasing age of the system. However, this dependence weakens with an increase in the salt concentration, which is known to change the microstructure of the system from glass like to gel like. We postulate that a decrease in the retardation time can be represented as a decrease in the viscosity (friction) of the dissipative environment surrounding the arrested entities that oppose elastic deformation of the system. We believe that ageing in colloidal glass leads to a greater ordering that enhances relative spacing between the constituents, thereby reducing the frictional resistance. However, since a gel state is inherently different in structure (fractal network) to that of a glass state (disordered), ageing in the gel does not induce ordering. Consequently, we observe an inverse dependence of retardation time on age, which becomes weaker with an increase in the salt concentration. We analyse these results from the perspective of ageing dynamics of both glass and gel states of laponite suspensions.

Item Type:Article
Source:Copyright of this article belongs to The Royal Society.
Keywords:Clay Suspensions; Ageing; Colloidal Glasses and Gels; Thixotropy
ID Code:78508
Deposited On:20 Jan 2012 04:31
Last Modified:20 Jan 2012 04:31

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