Jamming modulates coalescence dynamics of shear-thickening colloidal droplets

Abstract

Recent investigations into coalescence dynamics of complex fluid droplets revealed the existence of sub-Newtonian behaviour for polymeric fluids (elastic and shear thinning). We hypothesize that such delayed coalescence or sub-Newtonian coalescence dynamics may be extended to the general class of shear thickening fluids. To investigate this droplets of aqueous corn-starch suspensions were chosen and its coalescence in sessile pendant configuration was probed by high-speed real time imaging. Temporal evolution of the neck (growth) during coalescence was quantified as a function of suspended particle weight fraction φw. The necking behaviour was found to evolve as the power-law relation R=atb where R is neck radius with exponent 0.5 implying it is a subset of the generic sub-Newtonian coalescence. Second significant delay in the coalescence dynamics is observed for particle fractions beyond the jamming fraction \ φw>\ φJ≥0.35. Our proposed theoretical model captures this delay implicitly through altered suspension viscosity stemming from increased particle content.

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