Rishabh V. More scite author profile

In a concentrated suspension, particles come into contact due to the presence of asperities on their surfaces. As a result, the contact forces and interparticle friction become one of the important factors governing the rheology of rigid particle suspensions at high concentrations. We show that a load-dependent friction model can be used to reproduce the experimentally observed shear thickening [ST—continuous and discontinuous (DST)] behavior with an increase in the asperity size. Increasing the particle surface roughness size leads to a decrease in the critical shear rate above which shear-thickening takes place, a reduction in the critical volume fraction for DST and an increase in the viscosity jump across non-shear-thickened to shear-thickened regime. In this paper, we propose a constitutive model to quantify the effect of increasing the roughness size on the rheology of dense ST suspensions as well as on the critical shear rate for ST and the critical volume fraction for DST. We fit this model to our simulation data for stress controlled shear flow of dense rough particle suspensions. Once the fitting is complete, these equations are used to predict exact volume fractions and shear stress values for transitions between three regimes on the shear stress-shear rate flow state diagram for different roughness values. The results of this study can be used to tune the particle surface roughness for manipulating the dense suspension rheology according to different applications.

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Roughness induced shear thickening in frictional non-Brownian suspensions: A numerical study

Ardekani

2020

Journal of Rheology

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Rheology of concentrated fiber suspensions with a load-dependent friction coefficient

Khan¹,

More²,

Banaei

et al. 2023

Phys. Rev. Fluids

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Rishabh V. More

Effect of roughness on the rheology of concentrated non-Brownian suspensions: A numerical study

Motion of an inertial squirmer in a density stratified fluid

A constitutive model for sheared dense suspensions of rough particles

Roughness induced shear thickening in frictional non-Brownian suspensions: A numerical study

Rheology of concentrated fiber suspensions with a load-dependent friction coefficient

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