A review of microstructure in concentrated suspensions and its implications for rheology and bulk flow

Abbott JR, Tetlow N, Graham AL, Altobelli SA, Fukushima E, Mondy LA, Stephens TS (1991) Experimental observations of particle migration in concentrated suspensions: Couette flow. J Rheol 35:773

Ackerson BJ (1990) Shear induced order and shear processing of model hard-sphere suspensions. J Rheol 34:553

Aidun CK, Lu Y, Ding EJ (1998) Direct analysis of particulate suspensions with inertia using the discrete Boltzmann equation. J Fluid Mech 373:287

Altobelli SA, Givler RC, Fukushima E (1991) Velocity and concentration measurements of suspensions by nuclear magnetic resonance imaging. J Rheol 35:721

Ball RC, Melrose JR (1995) Lubrication breakdown in hydrodynamic simulations of concentrated colloids. Adv Colloid Interface Sci 59:19

Barnes HA (1989) Shear-thickening (dilatancy) in suspensions of nonaggregating solid particles dispersed in Newtonian liquids. J Rheol 33:329

Banchio AJ, Brady JF (2003) Accelerated Stokesian Dynamics: brownian motion. J Chem Phys 118:10323

Batchelor GK (1970) The stress system in a suspension of force-free particles. J Fluid Mech 41:545

Batchelor GK (1977) The effect of Brownian motion on the bulk stress in a suspension of spherical particles. J Fluid Mech 83:97

Batchelor GK, Green JT (1972a) The hydrodynamic interation of two small freely-moving spheres in a linear flow field. J Fluid Mech 56:375

Batchelor GK, Green JT (1972b) Determination of bulk stress in a suspension of spherical-particles to order c 2. J Fluid Mech 56:401

Bender JW, Wagner NJ (1995) Optical measurement of the contributions of colloidal forces to the rheology of concentrated colloidal dispersions. J Colloid Interface Sci 172:171

Bender JW, Wagner NJ (1996) Reversible shear thickening in monodisperse and bidisperse colloidal dispersions. J Rheol 40:899

Bergenholtz J (2001) Theory of rheology of colloidal dispersions. Curr Opin Colloid Interface Sci 6:484

Bergenholtz J, Brady JF, Vicic MA (2002) The non-Newtonian rheology of dilute colloidal suspensions. J Fluid Mech 456:239

Bossis G, Meunier A, Brady JF (1991) Hydroynamic stress on fractal aggregates of spheres. J Chem Phys 94:5064

Brader JM, Cates ME, Fuchs M (2008) First-principles constitutive equation for suspension rheology. Phys Rev Lett 101:138301

Brady JF, Morris JF (1997) Microstructure of strongly sheared suspensions and its impact on rheology and diffusion. J Fluid Mech 348:103

Brady JF, Vicic MA (1995) Normal stresses in colloidal dispersions. J Rheol 39:545

Brady JF, Bossis G (1988) Stokesian Dynamics. Ann Rev Fluid Mech 20:111

Butler JE, Majors PD, Bonnecaze RT (1999) Observations of shear-induced particle migration for oscillatory flow of a suspension within a tube. Phys Fluids 11:2865

Chang CY, Powell RL (1993) Dynamic simulation of bimodal suspensions of hydrodynamically interacting spherical particles. J Fluid Mech 253:1

Chow AW, Iwayima JH, Sinton SW, Leighton DT (1995) Particle migration of non-Brownian, concentrated suspensions in a truncated cone-and-plate. Soc. Rheology Mtg, Sacramento

Davis RH, Zhao Y, Galvin KP, et al (2003) Solid-solid contacts due to surface roughness and their effects on suspension behaviour. Phil Trans R Soc Lond A 361:871

Deboeuf A, Gauthier G, Martin J, Yurkovetsky Y, Morris JF (2009) Particle pressure in a sheared suspension: a bridge from osmosis to granular dilatancy. Phys Rev Lett 102:108301

D’Haene P, Mewis J, Fuller GG (1993) Scattering dichroism measurements of flow-induced structure of a shear thickening suspension. J Colloid Interface Sci 156:350

Dhont JKG, Briels WJ (2008) Vorticity and gradient banding. Rheol Acta 47:257

Doi M, Edwards SF (1988) The theory of polymer dynamics. Oxford Science, Oxford

Drew DA, Lahey RT (1993) Analytical modeling of multiphase flow. In: Roco MC (ed) Particulate two-phase flows. Butterworth-Heinemann, Oxford

Foss DR, Brady JF (2000) Structure, diffusion and rheology of Brownian suspensions by Stokesian Dynamics simulation. J Fluid Mech 407:167

Frank M, Anderson D, Weeks ER, Morris JF (2003) Particle migration in pressure-driven flow of a Brownian suspension J Fluid Mech 493:363

Fuchs M, Cates ME (2002) Theory of nonlinear rheology and yielding of dense colloidal suspensions. Phys Rev Lett 89:248304

Giesekus H (1965) Sekundarstromungen in viskoelastischen Flussigkeiten bei stationarer und periodischer Bewegung. Rheol Acta 4:85

Goddard JD (1984) Dissipative materials as models of thixotropy and plasticity. J Non-Newton Fluid Mech 14:141

Goddard JD (2006) A dissipative anisotropic fluid model for non-colloidal particle dispersions. J Fluid Mech 568:1

Hammond PS (1995) Settling and slumping in a Newtonian slurry, and implications for proppant placement during hydraulic fracturing of gas wells. Chem Eng Sci 50:3247

Hoffman RL (1972) Discontinuous and dilatant viscosity behavior in concentrated suspensions. I. Observation of a flow instability. Trans Soc Rheol 16:155

Jeffrey DJ, Morris JF, Brady JF (1993) The pressure moments for two spheres in a low-Reynolds-number flow. Phys Fluids A 5:2317

Jeffrey DJ, Onishi Y (1984) Calculation of the resistance and mobility functions for two unequal rigid spheres in low-Reynolds-number flow. J Fluid Mech 139:261

Jenkins JT, McTigue DF (1990) Transport process in concentrated suspensions: the role of particles fluctuations. In: Joseph DD, Schaeffer DG (eds) Two phase flows and waves. Springer, New York

Jomha A, Reynolds P (1993) An experimental study of the first normal stress difference-shear stress relationship in simple shear flow for concentrated shear thickening suspensions. Rheol Acta 32:457

Keller DS, Keller DV (1991) The effect of particle-size distribution on the antithixotropic and shear thickening properties of coal-water dispersions. J Rheol 35:1583

Koh CJ, Hookham P, Leal LG (1994) An experimental investigation of concentrated suspension flows in a rectangular channel. J Fluid Mech 266:1

Kolli VG, Pollauf EJ, Gadala-Maria F (2002) Transient normal stress response in a concentrated suspension of spherical particles. J Rheol 46:321

Krieger IM (1972) Rheology of monodisperse latices. Adv Colloid Interface Sci 3:111

Kulkarni SD, Morris JF (2009) Ordering transition and structural evolution under shear in Brownian suspensions. J Rheol 53:417

Ladd AJC, Verberg R (2001) Lattice-Boltzmann simulations of particle-fluid suspensions. J Stat Phys 104:1191

Laun H (1994) Normal stresses in extremely shear thickening polymer dispersions. J Non-Newton Fluid Mech 54:87

Leighton DT, Acrivos A (1986) Viscous resuspension. Chem Eng Sci 41:1377

Leighton DT, Acrivos A (1987) The shear-induced migration of particles in concentrated suspensions. J Fluid Mech 181:415

Lionberger RA (1998) Shear thinning of colloidal dispersions. J Rheol 42:843

Lionberger RA, Russel WB (1997a) Effectiveness of nonequilibrium closures for the many body forces in concentrated colloidal dispersions. J Chem Phys 106(1):402

Lionberger RA, Russel WB (1997b) A Smoluchowski theory with simple approximations for hydrodynamic interactions in concentrated dispersions. J Rheol 41:399

Lootens D, Hébraud P, Lécolier E, van Damme H (2004) Gelation, shear-thinning and shear-thickening in cement slurries. Oil Gas Sci Technol 59:31

Lootens D, van Damme H, Hémar, Y, Hébraud P (2005) Dilatant flow of concentrated suspensions of rough particles. Phys Rev Lett 95:268302

Lyon MK, Leal LG (1998a) An experimental study of the motion of concentrated suspensions in two-dimensional channel flow. Part 1. Monodisperse systems. J Fluid Mech 363:25

Lyon MK, Leal LG (1998b) An experimental study of the motion of concentrated suspensions in two-dimensional channel flow. Part 2. Bidisperse systems. J Fluid Mech 363:57

MacMeccan RM, Clausen JR, Neitzel GP, Aidun CK (2009) Simulating deformable particle suspensions using a coupled lattice-Boltzmann and finite-element method. J Fluid Mech 618:13

Maranzano BJ, Wagner NJ (2002) Flow-small angle neutron scattering measurements of colloidal dispersion microstructure evolution through the shear thickening transition. J Chem Phys 117:10291

Martys NS (2005) Study of a dissipative particle dynamics based approach for modeling suspensions. J Rheol 49:401

Melrose JR, Ball RC (2004a) Continuous shear thickening transitions in model concentrated colloids—The role of interparticle forces. J Rheol 48:937

Melrose JR, Ball RC (2004b) “Contact networks” in continuously shear thickening colloids. J Rheol 48:961

Miller RM, Morris JF (2006) Normal stress-driven migration and axial development in pressure-driven flow of a concentrated suspension. J Non-Newton Fluid Mech 135:149

Moraczewski T, Tang HY, Shapley NC (2005) Flow of a concentrated suspension through an abrupt axisymmetric expansion measured by nuclear magnetic resonance imaging. J Rheol 49:1409

Morris JF, Boulay F (1999) Curvilinear flows of noncolloidal suspensions: the role of normal stresses. J Rheol 43:1213

Morris JF, Brady JF (1998) Pressure-driven flow of a suspension: buoyancy effects. Int J Multiphase Flow 24:105

Morris JF, Katyal B (2002) Microstructure from simulated Brownian suspension flow at large shear rate. Phys Fluids 14:1920

Newstein MC, Wang H, Balsara NP, et al (1999) Microstructural changes in a colloidal liquid in the shear thinning and shear thickening regimes. J Chem Phys 111:4827

Nguyen QD, Boger DV (1998) Application of rheology to solving tailings disposal problems. Int J Mineral Process 54:217

Norman JT, Oguntade BO, Bonnecaze RT (2008) Particle-phase distributions of pressure-driven flows of bidisperse suspensions. J Fluid Mech 594:1

Nott PR, Brady JF (1994) Pressure-driven flow of suspensions: simulation and theory. J Fluid Mech 275:157

Ovarlez G, Bertrand F, Rodts S (2006) Local determination of the constitutive law of a dense suspension of noncolloidal particles through magnetic resonance imaging. J Rheol 50:259

Parsi F, Gadala-Maria F (1987) Fore-and-aft asymmetry in a concentrated suspension of solid spheres. J Rheol 31:725

Phung TN, Brady JF, Bossis G (1996) Stokesian Dynamics simulation of brownian suspensions. J Fluid Mech 313:181

Pine DJ, Gollub JP, Brady JF, Leshansky AM (2005) Chaos and threshold for irreversibility in sheared suspensions. Nature 438:997

Prasad D, Kytömaa HK (1995) Particle stress and viscous compaction during shear of dense suspensions. Int J Multiph Flow 21:775

Rampall I, Smart J, Leighton DT (1997) The influence of surface roughness on the pair particle distribution function of dilute suspensions of non-colloidal spheres in simple shear flow. J Fluid Mech 339:1

Ramachandran A, Leighton DT (2007) Viscous resuspension in a tube: the impact of secondary flows resulting from second normal stress differences. Phys Fluids 19:053301

Ramachandran A, Leighton DT (2008) The influence of secondary flows induced by normal stress differences on the shear-induced migration of particles in concentrated suspensions. J Fluid Mech 603:207

Russel WB, Saville DA, Schowalter WR (1989) Colloidal dispersions. Cambridge University Press, Cambridge

Semwogerere D, Morris JF, Weeks ER (2007) Development of particle migration in pressuredriven flow of a Brownian suspension. J Fluid Mech 581:437

Sierou A, Brady JF (2001) Accelerated Stokesian Dynamics simulations. J Fluid Mech 448:115

Sierou A, Brady JF (2002) Rheology and microstructure in concentrated noncolloidal suspensions. J Rheol 46:1031

Singh A, Nott PR (2000) Normal stresses and microstructure in bounded sheared suspensions via Stokesian Dynamics simulations. J Fluid Mech 412:279

Singh A, Nott PR (2003) Experimental measurements of the normal stresses in sheared Stokesian suspensions. J Fluid Mech 490:293

Stickel JJ, Phillips RJ, Powell RL (2006) A constitutive model for microstructure and total stress in particulate suspensions. J Rheol 50:379

Stickel JJ, Phillips RJ, Powell RL (2007) Application of a constitutive model for particulate suspensions: time-dependent viscometric flows. J Rheol 51:1271

Stickel JJ, Powell RL (2005) Fluid mechanics and rheology of dense suspensions. Ann Rev Fluid Mech 37:129

Subia SR, Ingber MS, Mondy LA, Altobelli SA, Graham AL (1998) Modelling of concentrated suspensions using a continuum constitutive equation. J Fluid Mech 373:193

van der Werff JC, de Kruif CG (1989) Hard-sphere colloidal dispersions: the scaling of rheological properties with particle size, volume fraction, and shear rate. J Rheol 33:421

Vieira SL, Neto LBP, Arruda ACF (2000) Transient behavior of an electrorheological fluid in shear flow mode. J Rheol 44:1139

von Pfeil K, Graham MD, Klingenberg DJ, Morris JF (2002) Pattern formation in flowing electrorheological fluids. Phys Rev Lett 88:188301

Wilson HJ (2005) An analytic form for the pair distribution function and rheology of a dilute suspension of rough spheres in plane strain flow. J Fluid Mech 534:97

Xi CG, Shapley NC (2008) Flows of concentrated suspensions through an asymmetric bifurcation. J Rheol 52:625

Yurkovetsky Y, Morris JF (2006) Triplet correlation in sheared suspensions of Brownian particles. J Chem Phys 124:204908

Yurkovetsky Y, Morris JF (2008) Particle pressure in a sheared Brownian suspension. J Rheol 52:141

Yziquel F, Carreau PJ, Moan M, Tanguy PA (1999) Rheological modeling of concentrated colloidal suspensions. J Non-Newton Fluid Mech 86:133

Zarraga IE, Hill DA, Leighton DT (2000) The characterization of the total stress of concentrated suspensions of noncolloidal spheres in Newtonian fluids. J Rheol 44:185

Zarraga IE, Hill DA, Leighton DT (2001) Normal stresses and free surface deformation in concentrated suspensions of noncolloidal spheres in a viscoelastic fluid. J Rheol 45:1065