Skip to main content
banner image
No data available.
Please log in to see this content.
You have no subscription access to this content.
No metrics data to plot.
The attempt to load metrics for this article has failed.
The attempt to plot a graph for these metrics has failed.
The full text of this article is not currently available.
1.Aral, B. K. , and D. M. Kalyon, “Effects of temperature and surface roughness on time-dependent development of wall slip in steady torsional flow of concentrated suspensions,” J. Rheol. 38, 957972 (1994).
2.Barnes, H. A. , “A review of the slip (wall depletion) of polymer solutions, emulsions and particle suspensions in viscometers: its cause, character, and cure,” J. Non-Newtonian Fluid Mech. 56, 221251 (1995).
3.Barnes, H. A. , “The yield stress—A review or ’παντα ρειɜ—everything flows?,” J. Non-Newtonian Fluid Mech. 81, 133178 (1999).
4.Borrega, R. , M. Cloitre, I. Betremieux, B. Ernst, and L. Leibler, “Concentration dependence of the low-shear viscosity of polyelectrolyte micro-networks: From hard spheres to soft microgels,” Europhys. Lett. 47, 729735 (1999).
5.Borrega, R., “Suspensions de microgels polyélectrolytes: Propriétés physico-chimiques, rhéologie, écoulement,” Ph.D. thesis, Université Paris VI Piérre et Marie Curie, 2000.
6.Buscall, R. , J. I. McGowan, and A. J. Mortonjones, “The rheology of concentrated dispersions of weakly attracting colloidal particles with and without wall slip,” J. Rheol. 37, 621641 (1993).
7.Cantat, I. , and C. Misbah, “Lift force and dynamical unbinding of adhering vesicles under shear flow,” Phys. Rev. Lett. 83, 880883 (1999).
8.Cloitre, M. , R. Borrega, and L. Leibler, “Rheological aging and rejuvenation in microgel pastes,” Phys. Rev. Lett. 85, 48194822 (2000).
9.Cloitre, M. , R. Borrega, F. Monti, and L. Leibler, “Structure and flow of polyelectrolyte microgels: from suspensions to glasses,” C.R. Physique 4, 221230 (2003a).
10.Cloitre, M. , R. Borrega, F. Monti, and L. Leibler, “Glassy dynamics and flow properties of soft colloidal pastes,” Phys. Rev. Lett. 90, 068303/1 (2003b).
11.Coussot, P. , Q. D. Nguyen, H. T. Huynh, and D. Bonn, “Avalanche behavior in yield stress fluids,” Phys. Rev. Lett. 88, 175501/1 (2002a).
12.Coussot, P. , J. S. Raynaud, P. Moucheront, J. P. Guilbaud, H. T. Huynh, S. Jarny, and D. Lesueur, “Coexistence of liquid and solid phases in flowing soft-glassy materials,” Phys. Rev. Lett. 88, 218301/1 (2002b).
13.Davis, R. H. , J.-M. Serayssol, and E. J. Hinch, “The elastohydrodynamic collision between two spheres,” J. Fluid Mech. 163, 479497 (1986).
14.Deen, W. M., Analysis of Transport Phenomena (Oxford University Press, New York, 1998).
15.Goddard, J. D. , “An elastohydrodynamic theory for the rheology of concentrated suspensions of deformable particles,” J. Non-Newtonian Fluid Mech. 2, 169189 (1977).
16.Hu, H. , R. G. Larson, and J. J. Magda, “Measurement of wall-slip-layer rheology in shear-thickening wormy micelle solutions,” J. Rheol. 46, 10011021 (2002).
17.Johnson, K. L., Contact Mechanics (Cambridge University Press, Cambridge, 1985).
18.Kalyon, D. M. , P. Yaras, B. Aral, and U. Yilmazer, “Rheological behavior of a concentrated suspension: A solid rocket fuel stimulant,” J. Rheol. 37, 3553 (1993).
19.Keentok, M. , and S.-C. Xue, “Edge fracture in cone-plate and parallel plate flows,” Rheol. Acta 38, 321348 (1999).
20.Knaebel, A. , E. R. Rebre, and F. Lequeux, “Determination of the elastic modulus of superabsorbent gel beads,” Polym. Gels Networks 5, 107121 (1997).
21.Lacasse, M.-D. , G. S. Grest, D. Levine, T. G. Mason, and D. A. Weitz, “Model for the elasticity of compressed emulsions,” Phys. Rev. Lett. 76, 34483451 (1996a).
22.Lacasse, M.-D. , G. S. Grest, and D. Levine, “Deformation of small compressed droplets,” Phys. Rev. E 54, 54365446 (1996b).
23.Larson, R. G., The Structure and Rheology of Complex Fluids (Oxford University Press, New York, 1999).
24.Lequeux, F. , D. Grosshans, and R. Hocquart, “Shear flow experiments in an assembly of gel beads and modelization of a Bingham behavior,” Polym. Adv. Technol. 3, 3338 (1992).
25.Martin, A. , J. Clain, A. Buguin, and F. Brochard-Wyart, “Wetting transitions at soft, sliding interfaces,” Phys. Rev. E 65, 031605/1 (2003).
26.Mason, T. G. , J. Bibette, and D. A. Weitz, “Elasticity of compressed emulsions,” Phys. Rev. Lett. 75, 20512054 (1995).
27.Mason, T. G. , J. Bibette, and D. A. Weitz, “Yield and flow of monodisperse emulsions,” J. Colloid Interface Sci. 179, 439448 (1996).
28.Mason, T. G. , and J. Bibette, “Shear rupturing of droplets in complex fluids,” Langmuir 13, 46004613 (1997).
29.Mason, T. G. , M.-D. Lacasse, G. S. Grest, D. Levine, J. Bibette, and D. A. Weitz, “Osmotic pressure and viscoelastic shear moduli of concentrated emulsions,” Phys. Rev. E 56, 31503166 (1997).
30.Meeker, S. P. , R. T. Bonnecaze, and M. Cloitre, “Slip and flow of soft particle pastes,” Phys. Rev. Lett. 92, 198302/1 (2004).
31.Meeten, G. H. , “Squeeze flow of soft spheres between rough surfaces,” Rheol. Acta 43, 616 (2004).
32.Mooney, M. , “Explicit formulas for slip and fluidity,” J. Rheol. 2, 210222 (1931).
33.Pal, R. , “Slippage during the flow of emulsions in rheometers,” Colloids Surf., A 162, 5566 (2000).
34.Persello, J. , A. Magnin, J. Chang, J.-M. Piau, and B. Cabane, “Flow of colloidal aqueous silica dispersions,” J. Rheol. 38, 18451869 (1994).
35.Piau, J.-M., and J.-F. Agassant, Rheology for Polymer Processing (Elsevier, Amsterdam, 1996).
36.Picard, G. , A. Ajdari, L. Bocquet, and F. Lequeux, “A simple model for heterogeneous flows of yield stress fluids,” Phys. Rev. E 66, 051501/1 (2002).
37.Pignon, F. , A. Magnin, and J.-M. Piau, “Thixotropic colloidal suspensions and flow curves with minimum: Identification of flow regimes and rheometric consequences,” J. Rheol. 40, 573587 (1996).
38.Plucinski, J. , R. K. Gupta, and S. Chakrabarti, “Wall slip of mayonnaises in viscometers,” Rheol. Acta 37, 256269 (1998).
39.Princen, H. M. , “Rheology of foams and highly concentrated emulsions. II. Experimental study of the yield stress and wall effects for concentrated oil-in-water emulsions,” J. Colloid Interface Sci. 105, 150171 (1985).
40.Princen, H. M. , “Rheology of foams and highly concentrated emulsions. III: Static shear modulus,” J. Colloid Interface Sci. 112, 427437 (1986).
41.Raynaud, J. S. , P. Moucheront, J. C. Baudez, F. Bertrand, J. P. Guilbaud, and P. Coussot, “Direct determination by nuclear magnetic resonance of the thixotropic and yielding behavior of suspensions,” J. Rheol. 46, 709732 (2002).
42.Russell, W. B. , and M. C. Grant, “Distinguishing between dynamic yielding and wall slip in a weakly flocculated colloidal dispersion,” Colloids Surf., A 161, 271282 (2000).
43.Salmon, J.-B. , L. Bécu, S. Manneville, and A. Colin, “Towards local rheology of emulsions under couette flow using dynamic light scattering,” Eur. Phys. J. E 10, 209221 (2003).
44.Sekimoto, K. , and L. Leibler, “A mechanism for shear thickening of polymer-bearing surfaces: elastohydrodynamic coupling,” Europhys. Lett. 23, 113117 (1993).
45.Varnik, F. , L. Boquet, J.-L. Barrat, and L. Berthier, “Shear localization in a model glass,” Phys. Rev. Lett. 90, 095702/1 (2003).
46.Walls, H. J. , S. B. Caines, A. M. Sanchez, and S. A. Khan, “Yield stress and wall slip phenomena in colloidal silica gels,” J. Rheol. 47, 847867 (2003).
47.Wein, O. , and V. V. Tovchigrechko, “Rotational viscometry under presence of apparent wall slip,” J. Rheol. 36, 821844 (1992).
48.Yoshimura, A. , and R. K. Prud’homme, “Wall slip corrections for couette and parallel disc viscometers,” J. Rheol. 32, 5367 (1988).

Data & Media loading...


Article metrics loading...


Full text loading...


Access Key

  • FFree Content
  • OAOpen Access Content
  • SSubscribed Content
  • TFree Trial Content
752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd