Slip at fluid-solid interface

Polymer Reviews

Volumn 51, Issue 4, 2011, Pages 309-340

  Sochi, Taha ^a  

^a KING'S COLLEGE LONDON   (United Kingdom)

Author keywords

flow instability; polymer processing; rheology; wall slip

Indexed keywords

FLOW INSTABILITIES; FLUID SYSTEMS; FLUID-SOLID INTERFACES; NON-NEWTONIAN FLUIDS; POLYMER PROCESSING; SPURT FLOW; WALL SLIP;

ELASTICITY; FLUID MECHANICS; NON NEWTONIAN LIQUIDS;

RHEOLOGY;

EID: 84857323402     PISSN: 15583724     EISSN: 15583716     Source Type: Journal    
DOI: 10.1080/15583724.2011.615961     Document Type: Review

References (223)

1. Batchelor, G. K. 1967. An Introduction to Fluid Dynamics, Cambridge, UK: Cambridge University Press.
2. Day, M. A. 1990. The no-slip condition of fluid dynamics. Erkenntnis, 33 (3): 285-296.
3. Tanner, R. I. 2000. Engineering Rheology, 2nd Edition, New York: Oxford University Press.
4. Pozrikidis, C. 2001. Fluid Dynamics: Theory, Computation, and Numerical Simulation, United States: Kluwer Academic Publishers.
5. Ferziger, J. H., and, Peri, M. 2002. Computational Methods for Fluid Dynamics.3rd Edition, Germany: Springer.
6. Kundu, P. K., and, Cohen, I. M. 2002. Fluid Mechanics, 2nd Edition, United States: Academic Press.
7. Prieve, D. C. 2000. A Course in Fluid Mechanics with Vector Field Theory, Carnegie Mellon University.
8. Kiljaski, T. 1989. A method for correction of the wall-slip effect in a Couette rheometer. Rheologica Acta, 28 (1): 61-64.
9. Sun, M., and, Ebner, C. 1992. Molecular dynamics study of flow at a fluid-wall interface. Physical Review Letters, 69 (24): 3491-3494.
10. White, F. M. 2002. Fluid Mechanics, 4th Edition, United States: McGraw-Hill.
11. Maciel, A., Salas, V., Soltero, J. F.A., Guzmán, J., and, Manero, O. 2002. On the wall slip of polymer blends. Journal of Polymer Science Part B, 40 (4): 303-316. (Pubitemid 34138673)
12. Tilton, J. N. 2007. Perry's Chemical Engineers Handbook Section 6: Fluid and Particle Dynamics, 8th Edition, McGraw-Hill Professional.
13. Lam, Y. C., Wang, Z. Y., Chen, X., and, Joshi, S. C. 2007. Wall slip of concentrated suspension melts in capillary flows. Powder Technology, 177 (3): 162-169. (Pubitemid 47211214)
14. Oertel, H. 2004. Prandtl's Essentials of Fluid Mechanics, 2nd Edition, United States: Springer.
15. Luk, S., Mutharasan, R., and, Apelian, D. 1987. Experimental observations of wall slip: tube and packed bed flow. Industrial & Engineering Chemistry Research, 26 (8): 1609-1616. (Pubitemid 17636941)
16. Vinogradova, O. I. 1999. Slippage of water over hydrophobic surfaces. International Journal of Mineral Processing, 56 (1-4): 31-60. (Pubitemid 29375591)
17. Tretheway, D. C., and, Meinhart, C. D. 2002. Apparent fluid slip at hydrophobic microchannel walls. Physics of Fluids, 14 (3): L9-L12.
18. Cheikh, C., and, Koper, G. 2003. Stick-slip transition at the nanometer scale. Physical Review Letters, 91 (15): 156102-1-156102-4
19. Zhang, J., and, Kwok, D. Y. 2004. Apparent slip over a solid-liquid interface with a no-slip boundary condition. Physical Review E, 70 (5): 056701-1-056701-4 (Pubitemid 40086443)
20. Neto, C., Evans, D. R., Bonaccurso, E., Butt, H-J., and, Craig, V. S.J. 2005. Boundary slip in Newtonian liquids: A review of experimental studies. Reports on Progress in Physics, 68 (12): 2859-2897. (Pubitemid 41435120)
21. Schmatko, T., Hervet, H., and, Leger, L. 2005. Friction and slip at simple fluid-solid interfaces: the roles of the molecular shape and the solid-liquid interaction. Physical Review Letters, 94 (24): 244501-1-244501-4
22. Granick, S., Zhu, Y., and, Lee, H. 2003. Slippery questions about complex fluids flowing past solids. Nature Materials, 2: 221-227.
23. Churaev, N. V., Sobolev, V. D., and, Somov, A. N. 1984. Slippage of liquids over lyophobic solid surfaces. Journal of Colloid and Interface Science, 97 (2): 574-581. (Pubitemid 14571586)
24. Pit, R., Hervet, H., and, Léger, L. 2000. Direct experimental evidence of slip in hexadecane: Solid interfaces. Physical Review Letters, 85 (5): 980-983.
25. Craig, V. S. J., Neto, C., and, Williams, D. R. M. 2001. Shear-dependent boundary slip in an aqueous Newtonian liquid. Physical Review Letters, 87 (5): 054504-1-054504-4.
26. de Gennes, P. G. 1985. Wetting: Statics and dynamics. Reviews of Modern Physics, 57 (3): 827-863.
27. Bonaccurso, E., Kappl, M., and, Butt, H.-J. 2002. Hydrodynamic force measurements: boundary slip of water on hydrophilic surfaces and electrokinetic effects. Physical Review Letters, 88 (7): 076103-1-076103-4
28. Cho, J-H. J., Law, B. M., and, Rieutord, F. 2004. Dipole-dependent slip of newtonian liquids at smooth solid hydrophobic surfaces. Physical Review Letters, 92 (16): 166102-1-166102-4
29. Huang, P., Guasto, J. S., and, Breuer, K. S. 2006. Direct measurement of slip velocities using three-dimensional total internal reflection velocimetry. Journal of Fluid Mechanics, 566: 447-464. (Pubitemid 44530266)
30. Seth, J. R., Cloitre, M., and, Bonnecaze, R. T. 2008. Influence of short-range forces on wall-slip in microgel pastes. Journal of Rheology, 52 (5): 1241-1268.
31. Cohen, Y., and, Metzner, A. B. 1986. An analysis of apparent slip flow of polymer solutions. Rheologica Acta, 25 (1): 28-35.
32. Schowalter, W. R. 1988. The behavior of complex fluids at solid boundaries. Journal of Non-Newtonian Fluid Mechanics, 29: 25-36.
33. Zhu, Y., and, Granick, S. 2001. Rate-dependent slip of Newtonian liquid at smooth surfaces. Physical Review Letters, 87 (1): 096105-1-96105-4
34. Denn, M. M. 2001. Extrusion instabilities and wall slip. Annual Review of Fluid Mechanics, 33: 265-287.
35. Thompson, P. A., and, Robbins, M. O. 1990. Shear flow near solids: Epitaxial order and flow boundary conditions. Physical Review A, 41 (12): 6830-6837.
36. Cottin-Bizonne, C., Jurine, S., Baudry, J., Crassous, J., Restagno, F., and, Charlaix,. 2002. Nanorheology: An investigation of the boundary condition at hydrophobic and hydrophilic interfaces. The European Physical Journal E, 9 (1): 47-53. (Pubitemid 36184997)
37. Tretheway, D. C., and, Meinhart, C. D. 2003. Effects of Absolute Pressure on Fluid Slip in a Hydrophobic Microchannel. ASME 2003 International Mechanical Engineering Congress and Exposition (IMECE2003). November 15-21. 561-564. Washington, DC
38. Currie, I. G. 2003. Fundamental Mechanics of Fluids, 3rd Edition, New York: Marcel Dekker.
39. Hervet, H., and, Léger, L. 2003. Flow with slip at the wall: from simple to complex fluids. Comptes Rendus Physique, 4 (2): 241-249. (Pubitemid 36623993)
40. Lichter, S., Roxin, A., and, Mandre, S. 2004. Mechanisms for liquid slip at solid surfaces. Physical Review Letters, 93 (8): 086001-1-086001-4
41. Yan-Yan, C., Hou-Hui, Y., and, Hua-Bing, L. 2008. Boundary slip and surface interaction: A Lattice Boltzmann simulation. Chinese Physics Letters, 25 (1): 184-187.
42. Morris, D. L., Hannon, L., and, Garcia, A. L. 1992. Slip length in a dilute gas. Physical Review A, 46 (8): 5279-5281.
43. Arya, G., Chang, H-C., and, Maginn, E. J. 2003. Molecular simulations of Knudsen wall-slip: Effect of wall morphology. Molecular Simulation, 29 (10-11): 697-709. (Pubitemid 44115090)
44. Lichter, S., Martini, A., Snurr, R. Q., and, Wang, Q. 2007. Liquid slip in nanoscale channels as a rate process. Physical Review Letters, 98 (22): 226001-1-226001-4
45. Dullien, F. A. L. 1975. Single phase flow through porous media and pore structure. The Chemical Engineering Journal, 10 (1): 1-34. 1975
46. Tropea, C., Yarin, A. L., and, Foss, J. F., eds. Springer Handbook of Experimental Fluid Mechanics, 2007 Springer-Verlag: Germany.
47. Kozicki, W., Hsu, C. J., and, Tiu, C. 1967. Non-Newtonian flow through packed beds and porous media. Chemical Engineering Science, 22 (4): 487-502.
48. Tretheway, D. C., and, Meinhart, C. D. 2004. A generating mechanism for apparent fluid slip in hydrophobic microchannels. Physics of Fluids, 16 (5): 1509-1515. (Pubitemid 38672660)
49. Migler, K. B., Hervet, H., and, Leger, L. 1993. Slip transition of a polymer melt under shear stress. Physical Review Letters, 70 (3): 287-290.
50. Neto, C., Craig, V. S. J., and, Williams, D. R. M. 2003. Evidence of shear-dependent boundary slip in Newtonian liquids. The European Physical Journal E, 12 (1): 71-74.
51. Meeker, S. P., Bonnecaze, R. T., and, Cloitre, M. 2004. Slip and flow in pastes of soft particles: Direct observation and rheology. Journal of Rheology, 48 (6): 1295-1320. (Pubitemid 40044555)
52. Kalyon, D., Gevgilili, H., and, Shah, A. 2004. Detachment of the polymer melt from the roll surface: Data from a shear roll extruder. International Polymer Processing, 19 (2): 129-138.
53. Westover, R. F. 1966. The significance of slip of polymer melt flow. Polymer Engineering & Science, 6 (1): 83-89.
54. Hatzikiriakos, S. G., and, Dealy, J. M. 1991. Wall slip of molten high density polyethylene. I. Sliding plate rheometer studies. Journal of Rheology, 35 (4): 497-523.
55. Berker, A., and, Arsdale, W. E. 1992. Phenomenological models of viscoplastic, thixotropic, and granular materials. Rheologica Acta, 31 (2): 119-138.
56. Chen, Y., Kalyon, D. M., and, Bayramli, E. 1993. Effects of surface roughness and the chemical structure of materials of construction on wall slip behavior of linear low density polyethylene in capillary flow. Journal of Applied Polymer Science, 50 (7): 1169-1177.
57. Tanner, R. I. 1994. Partial wall slip in polymer flow. Industrial & Engineering Chemistry Research, 33 (10): 2434-2436.
58. Graham, M. D. 1995. Wall slip and the nonlinear dynamics of large amplitude oscillatory shear flows. Journal of Rheology, 39 (4): 697-712.
59. TM coatings in polyethylene capillary extrusion. Journal of Applied Polymer Science, 55 (4): 595-603.
60. Black, W. B., and, Graham, M. D. 1996. Wall-slip and polymer-melt flow instability. Physical Review Letters, 77 (5): 956-959. (Pubitemid 126625591)
61. Rosenbaum, E. E., and, Hatzikiriakos, S. G. 1997. Wall slip in the capillary flow of molten polymers subject to viscous heating. AIChE Journal, 43 (3): 598-608.
62. Plucinski, J., Gupta, R. K., and, Chakrabarti, S. 1998. Wall slip of mayonnaises in viscometers. Rheologica Acta, 37 (3): 256-269. (Pubitemid 28527816)
63. Joshi, Y. M., Lele, A. K., and, Mashelkar, R. A. 2000. Slipping fluids, a unified transient network model. Journal of Non-Newtonian Fluid Mechanics, 89 (3): 303-335. (Pubitemid 30147520)
64. Chang, G-S., Koo, J-S., and, Song, K-W. 2003. Wall slip of vaseline in steady shear rheometry. Korea-Australia Rheology Journal, 15 (2): 55-61.
65. Guo, F., Wong, P. L., Geng, M., and, Kaneta, M. 2009. Occurrence of wall slip in elastohydrodynamic lubrication contacts. Tribology Letters, 34 (2): 103-111.
66. Buscall, R. 2010. Letter to the Editor: Wall slip in dispersion rheometry. Journal of Rheology, 54 (6): 1177-1183.
67. Lawal, A., and, Kalyon, D. M. 1998. Squeezing flow of viscoplastic fluids subject to wall slip. Polymer Engineering & Science, 38 (11): 1793-1804. (Pubitemid 128599830)
68. Sánchez, M. C., Valenci, C., Franco, J. M., and, Gallegos, C. 2001. Wall slip phenomena in oil-in-water emulsions: Effect of some structural parameters. Journal of Colloid and Interface Science, 241 (1): 226-232. (Pubitemid 32786680)
69. Meeten, G. H. 2004. Squeeze flow of soft solids between rough surfaces. Rheologica Acta, 43 (1): 6-16. (Pubitemid 38439094)
70. Wang, S.-Q., Drda, P. A., and, Inn, Y.-W. 1996. Exploring molecular origins of sharkskin, partial slip, and slope change in flow curves of linear low density polyethylene. Journal of Rheology, 40 (5): 875-898. (Pubitemid 126572284)
71. Léger, L., Hervet, H., Massey, G., and, Durliat, E. 1997. Wall slip in polymer melts. Journal of Physics: Condensed Matter, 9 (37): 7719-7740. (Pubitemid 127634560)
72. Larson, R. G. 1999. The Structure and Rheology of Complex Fluids, Oxford University Press: United States.
73. Dubbeldam, J. L. A., and, Molenaar, J. 2003. Self-consistent dynamics of wall slip. Physical Review E, 67 (1): 011803-1-011803-12
74. Kalyon, D. M., and, Gevgilili, H. 2003. Wall slip and extrudate distortion of three polymer melts. Journal of Rheology, 47 (3): 683-699.
75. Kalyon, D. M. 2005. Apparent slip and viscoplasticity of concentrated suspensions. Journal of Rheology, 49 (3): 621-640. (Pubitemid 43126809)
76. Bird, R. B., Armstrong, R. C., and, Hassager, O. 1987. Dynamics of Polymeric Liquids, Vol. 1, 2nd Edition, Hoboken, NJ: John Wiley & Sons.
77. Sorbie, K. S. 1990. Depleted layer effects in polymer flow through porous media: I. Single capillary calculations. Journal of Colloid and Interface Science, 139 (2): 299-314.
78. Kalyon, D. M., Yaras, P., Aral, B., and, Yilmazer, U. 1993. Rheological behavior of a concentrated suspension: A solid rocket fuel stimulant. Journal of Rheology, 37 (1): 35-53.
79. Aral, B. K., and, Kalyon, D. M. 1994. Effects of temperature and surface roughness on time-dependent development of wall slip in steady torsional flow of concentrated suspensions. Journal of Rheology, 38 (4): 957-972.
80. Holland, F. A., and, Bragg, R. 1995. Fluid Flow for Chemical Engineers, 2nd Edition, Edward Arnold: Great Britain.
81. Barnes, H. A. 1995. A review of the slip (wall depletion) of polymer solutions, emulsions and particle suspensions in viscometers: Its cause, character, and cure. Journal of Non-Newtonian Fluid Mechanics, 56 (3): 221-251.
82. Goshawk, J. A., Binding, D. M., Kell, D. B., and, Goodacre, R. 1998. Rheological phenomena occurring during the shearing flow of mayonnaise. Journal of Rheology, 42 (6): 1537-1553. (Pubitemid 128599151)
83. Yeow, Y. L., Choon, B., Karniawan, L., and, Santoso, L. 2004. Obtaining the shear rate function and the slip velocity function from Couette viscometry data. Journal of Non-Newtonian Fluid Mechanics, 124 (1-3): 43-49. (Pubitemid 39621445)
84. Cohen, Y., and, Metzner, A. B. 1985. Apparent slip flow of polymer solutions. Journal of Rheology, 29 (1): 67-102. (Pubitemid 15580116)
85. Pit, R., Hervet, H., and, Léger, L. 1999. Friction and slip of a simple liquid at a solid surface. Tribology Letters, 7 (2-3): 147-152.
86. El Kissi, N., and, Piau, J-M. 1996. Slip and friction of polymer melt flows. Rheology Series, 5: 357-388. (Pubitemid 126138973)
87. ttinger, H. C. 2008. Thermodynamic formulation of wall slip. Journal of Non-Newtonian Fluid Mechanics, 152 (1-3): 66-75.
88. Russel, W. B., and, Grant, M. C. 2000. Distinguishing between dynamic yielding and wall slip in a weakly flocculated colloidal dispersion. Colloids and Surfaces A, 161 (2): 271-282.
89. Liu, S., and, Masliyah, J. H. 1998. On non-Newtonian fluid flow in ducts and porous media -Optical rheometry in opposed jets and flow through porous media. Chemical Engineering Science, 53 (6): 1175-1201.
90. Henry, C. L., Neto, C., Evans, D. R., Biggs, S., and, Craig, V. S. J. 2004. The effect of surfactant adsorption on liquid boundary slippage. Physica A, 339 (1-2): 60-65.
91. Balasubramanian, S., and, Mundy, C. J. 1998. Calculation of friction coefficient of a solid-liquid interface via a non-equilibrium molecular dynamics simulation. Bulletin of Materials Science, 22 (5): 873-876.
92. Robert, L., Demay, Y., and, Vergnes, B. 2004. Stick-slip flow of high density polyethylene in a transparent slit die investigated by laser Doppler velocimetry. Rheologica Acta, 43 (1): 89-98. (Pubitemid 38431405)
93. Rodrguez-González, F., Pérez-González, J., Marn-Santibáez, B. M., and, de Vargas, L. 2009. Kinematics of the stick-slip capillary flow of high-density polyethylene. Chemical Engineering Science, 64 (22): 4675-4683.
94. Govardhan, R. N., Srinivas, G. S., Asthana, A., and, Bobji, M. S. 2009. Time dependence of effective slip on textured hydrophobic surfaces. Physics of Fluids, 21 (5): 052001-1-052001-8
95. Ruckenstein, E., and, Rajora, P. 1983. On the no-slip boundary condition of hydrodynamics. Journal of Colloid and Interface Science, 96 (2): 488-491.
96. Hatzikiriakos, S. G. 1994. The onset of wall slip and sharkskin melt fracture in capillary flow. Polymer Engineering & Science, 34 (19): 1441-1449.
97. Kumar, K. A., and, Graham, M. D. 1998. Effect of pressure-dependent slip on flow curve multiplicity. Rheologica Acta, 37 (3): 245-255. (Pubitemid 28519491)
98. Harting, J., Kunert, C., and, Herrmann, H. J. 2006. Lattice Boltzmann simulations of apparent slip in hydrophobic microchannels. Europhysics Letters, 75 (2): 328-334. (Pubitemid 44091103)
99. Bonaccurso, E., Butt, H-J., and, Craig, V. S. J. 2003. Surface roughness and hydrodynamic boundary slip of a Newtonian fluid in a completely wetting system. Physical Review Letters, 90 (14): 144501-1-144501-4
100. Mooney, M. 1931. Explicit formulas for slip and fluidity. Journal of Rheology, 2 (2): 210-222.
101. Chakrabandhu, K., and, Singh, R. K. 2005. Wall slip determination for coarse food suspensions in tube flow at high temperatures. Journal of Food Engineering, 70 (1): 73-81. (Pubitemid 40423826)
102. Boersma, W. H., Baets, P. J. M., Laven, J., and, Stein, H. N. 1991. Time-dependent behavior and wall slip in concentrated shear thickening dispersions. Journal of Rheology, 35 (6): 1093-1120.
103. Boukany, P. E., and, Wang, S-Q. 2009. Exploring the transition from wall slip to bulk shearing banding in well-entangled DNA solutions. Soft Matter, 5: 780-789.
104. Lettinga, M. P., and, Manneville, S. 2009. Competition between shear banding and wall slip in wormlike micelles. Physical Review Letters, 103 (24): 248302-1-248302-4.
105. Toorman, E. A. 1997. Modelling the thixotropic behaviour of dense cohesive sediment suspensions. Rheologica Acta, 36 (1): 56-65. (Pubitemid 127618561)
106. Denn, M. M. 1990. Issues in viscoelastic fluid mechanics. Annual Review of Fluid Mechanics, 22: 13-34.
107. Magnin, A., and, Piau, J. M. 1990. Cone-and-plate rheometry of yield stress fluids. Study of an aqueous gel. Journal of Non-Newtonian Fluid Mechanics, 36: 85-108.
108. King, M. R. Jr., and, Leighton, D. T. 1997. Measurement of the inertial lift on a moving sphere in contact with a plane wall in a shear flow. Physics of Fluids, 9 (5): 1248-1255. (Pubitemid 27405442)
109. Lindner, A., Coussot, P., and, Bonn, D. 2000. Viscous fingering in a yield stress fluid. Physical Review Letters, 85 (2): 314-317.
110. Georgiou, G. C. 2003. The time-dependent, compressible Poiseuille and extrudate-swell flows of a Carreau fluid with slip at the wall. Journal of Non-Newtonian Fluid Mechanics, 109 (2-3): 93-114. (Pubitemid 36211414)
111. Chen, L., Duan, Y., Zhao, C., and, Yang, L. 2009. Rheological behavior and wall slip of concentrated coal water slurry in pipe flows. Chemical Engineering and Processing: Process Intensification, 48 (7): 1241-1248.
112. Ling, R., Jian-Guo, C., and, Ke-Qin, Z. 2008. Dual role of wall slip on linear stability of plane Poiseuille flow. Chinese Physics Letters, 25 (2): 601-603.
113. Lawal, A., and, Kalyon, D. M. 1997. Nonisothermal extrusion flow of viscoplastic fluids with wall slip. International Journal of Heat and Mass Transfer, 40 (16): 3883-3897. (Pubitemid 127426020)
114. Astarita, G. 1965. Possible interpretation of mechanism of drag reduction in viscoelastic liquids. Industrial & Engineering Chemistry Fundamentals, 4 (3): 354-356.
115. Jones, W. M., and, Ho, S. P. 1979. The flow of dilute aqueous solutions of macromolecules in various geometries: VII. Mechanisms of resistance in porous media. Journal of Physics D: Applied Physics, 12 (3): 383-393.
116. McComb, W. D. 1992. The Physics of Fluid Turbulence, Oxford University Press: Great Britain.
117. Nguyen, Q. D., and, Boger, D. V. 1992. Measuring the flow properties of yield stress fluids. Annual Review of Fluid Mechanics, 24: 47-88.
118. Marshall, R. J., and, Metzner, A. B. 1967. Flow of viscoelastic fluids through porous media. Industrial & Engineering Chemistry Fundamentals, 6 (3): 393-400.
119. Blyler, L. L. Jr., and, Hart, A. C. Jr. 1970. Capillary flow instability of ethylene polymer melts. Polymer Engineering & Science, 10 (4): 193-203.
120. Yilmazer, U., and, Kalyon, D. M. 1992. The Interfacial Interactions in Polymeric Composites, NATO Advanced Study Institute.
121. Ruiz-Viera, M. J., Delgado, M. A., Franco, J. M., and, Gallegos, C. 2006. Evaluation of wall slip effects in the lubricating grease/air two-phase flow along pipelines. Journal of Non-Newtonian Fluid Mechanics, 139 (3): 190-196. (Pubitemid 44774658)
122. Kalyon, D. M., Gokturk, H., Yaras, P., and, Aral, B. 1995. Motion analysis of development of wall slip during the die flow of concentrated suspensions. Society of Plastics Engineers ANTEC Technical Papers, 41: 1130-1134.
123. Walls, H. J., Caines, S. B., Sanchez, A. M., and, Khan, S. A. 2003. Yield stress and wall slip phenomena in colloidal silica gels. Journal of Rheology, 47 (4): 847-868.
124. Huang, Y., and, Sorbie, K. S. 1992. The Adsorption and In-Situ Rheological Behavior of Xanthan Solution Flowing through Porous Media. SPE/DOE Enhanced Oil Recovery Symposium, 22-24 April. Tulsa, Oklahoma. SPE/DOE 24153
125. Franco, J. M., Gallegos, C., and, Barnes, H. A. 1998. On slip effects in steady-state flow measurements of oil-in-water food emulsions. Journal of Food Engineering, 36 (1): 89-102. (Pubitemid 128459737)
126. Kao, S. V., Nielsen, L. E., and, Hill, C. T. 1975. Rheology of concentrated suspensions of spheres. I. Effect of the liquid-solid interface. Journal of Colloid and Interface Science, 53 (3): 358-366.
127. Pal, R. 2000. Slippage during the flow of emulsions in rheometers. Colloids and Surfaces A, 162 (1-3): 55-66. (Pubitemid 30052961)
128. Gevgilili, H., and, Kalyon, D. M. 2001. Step strain flow: Wall slip effects and other error sources. Journal of Rheology, 45 (2): 467-475. (Pubitemid 32371962)
129. Bertola, V. 2007. A note on the effects of liquid viscoelasticity and wall slip on foam drainage. Journal of Physics Condensed Matter, 19 (24): 246105
130. Jossic, L., and, Magnin, A. 2009. Drag of an isolated cylinder and interactions between two cylinders in yield stress fluids. Journal of Non-Newtonian Fluid Mechanics, 164 (1-3): 9-16.
131. Boehnke, U.-C., Remmler, T., Motschmann, H., Wurlitzer, S., Hauwede, J., and, Fischer, Th. M. 1999. Partial air wetting on solvophobic surfaces in polar liquids. Journal of Colloid and Interface Science, 211 (2): 243-251. (Pubitemid 29394625)
132. Kraynik, A. M., and, Schowalter, W. R. 1981. Slip at the wall and extrudate roughness with aqueous solutions of polyvinyl alcohol and sodium borate. Journal of Rheology, 25 (1): 95-114. (Pubitemid 11466915)
133. Chen, Y., Kalyon, D. M., and, Bayramli, E. 1992. Wall slip behavior of linear low density polyethylene in capillary flow: Effects of materials of construction and surface roughness. Society of Plastics Engineers ANTEC Technical Papers, 38: 1747-1751.
134. Baudry, J., and, Charlaix, E. 2001. Experimental evidence for a large slip effect at a nonwetting fluid-solid interface. Langmuir, 17 (17): 5232-5236. (Pubitemid 35330827)
135. Cottin-Bizonne, C., Cross, B., Steinberger, A., and, Charlaix, E. 2005. Boundary slip on smooth hydrophobic surfaces: Intrinsic effects and possible artifacts. Physical Review Letters, 94 (5): 056102-1-056102-4
136. Tyrrell, J. W. G., and, Attard, P. 2001. Images of nanobubbles on hydrophobic surfaces and their interactions. Physical Review Letters, 87 (17): 176104-1-176104-4
137. Magnin, A., and, Piau, J. M. 1987. Shear rheometry of fluids with a yield stress. Journal of Non-Newtonian Fluid Mechanics, 23: 91-106.
138. Fletcher, A. J. P., Flew, S. R.G., Lamb, S. P., Lund, T., Bjrnestad, E., Stavland, A., and, Gjvikli, N. B. 1991. Measurements of Polysaccharide Polymer Properties in Porous Media. SPE International Symposium on Oilflield Chemistry, 20-22 February. 21018 California, SPE: Anaheim.
139. Liddell, P. V., and, Boger, D. V. 1996. Yield stress measurements with the vane. Journal of Non-Newtonian Fluid Mechanics, 63 (2-3): 235-261. (Pubitemid 126398883)
140. Nouar, C., Desaubry, C., and, Zenaidia, H. 1998. Numerical and experimental investigation of thermal convection for a thermodependent Herschel-Bulkley fluid in an annular duct with rotating inner cylinder. European Journal of Mechanics-B/Fluids, 17 (6): 875-900. (Pubitemid 128431657)
141. Saak, A. W., Jennings, H. M., and, Shah, S. P. 2001. The influence of wall slip on yield stress and viscoelastic measurements of cement paste. Cement and Concrete Research, 31 (2): 205-212. (Pubitemid 33763341)
142. Meeker, S. P., Bonnecaze, R. T., and, Cloitre, M. 2004. Slip and flow in soft particle pastes. Physical Review Letters, 92 (19): 198302-1-198302-4
143. Egger, H., and, McGrath, K. M. 2006. Estimating depletion layer thickness in colloidal systems: Correlation with oil-in-water emulsion composition. Colloids and Surfaces A, 275 (1-3): 107-113. (Pubitemid 43155249)
144. Kelessidis, V. C., and, Maglione, R. 2008. Yield stress of water-bentonite dispersions. Colloids and Surfaces A, 318 (1-3): 217-226.
145. Khaled, A.-R. A., and, Vafai, K. 2004. The effect of the slip condition on Stokes and Couette flows due to an oscillating wall: exact solutions. International Journal of Non-Linear Mechanics, 39 (5): 795-809.
146. Biller, P., and, Petruccione, F. 1987. The flow of dilute polymer solutions in confined geometries: A consistent numerical approach. Journal of Non-Newtonian Fluid Mechanics, 25 (3): 347-364.
147. Joseph, P., and, Tabeling, P. 2005. Direct measurement of the apparent slip length. Physical Review E, 71 (3): 035303-1-035303-4
148. Cieplak, M., Koplik, J., and, Banavar, J. R. 2001. Boundary conditions at a fluid-solid interface. Physical Review Letters, 86 (5): 803-806. (Pubitemid 32159794)
149. Voronov, R. S., Papavassiliou, D. V., and, Lee, L. L. 2007. Slip length and contact angle over hydrophobic surfaces. Chemical Physics Letters, 441 (4-6): 273-276. (Pubitemid 46907061)
150. Huang, P., and, Breuer, K. S. 2007. Direct measurement of slip length in electrolyte solutions. Physics of Fluids, 19 (2): 028104-1-028104-3
151. Schnell, E. 1956. Slippage of water over nonwettable surfaces. Journal of Applied Physics, 27 (10): 1149-1152.
152. Divoux, T., Tamarii, D., Barentin, C., and, Manneville, S. 2010. Transient shear banding in a simple yield stress fluid. Physical Review Letters, 104 (20): 208301-1-208301-4
153. Jabbarzadeh, A., Atkinson, J. D., and, Tanner, R. I. 1999. Wall slip in the molecular dynamics simulation of thin films of hexadecane. Journal of Chemical Physics, 110 (5): 2612-2620. (Pubitemid 129615114)
154. Merkak, O., Jossic, L., and, Magnin, A. 2006. Spheres and interactions between spheres moving at very low velocities in a yield stress fluid. Journal of Non-Newtonian Fluid Mechanics, 133 (2-3): 99-108. (Pubitemid 43257133)
155. Kalyon, D. M. 2005. Letter to the editor: Comments on the use of rheometers with rough surfaces or surfaces with protrusions. Journal of Rheology, 49 (5): 1153-1155.
156. Princen, H. M. 1985. Rheology of foams and highly concentrated emulsions. II. experimental study of the yield stress and wall effects for concentrated oil-in-water emulsions. Journal of Colloid and Interface Science, 105 (1): 150-171. (Pubitemid 15491192)
157. Tokpavi, D. L., Jay, P., Magnin, A., and, Jossic, L. 2009. Experimental study of the very slow flow of a yield stress fluid around a circular cylinder. Journal of Non-Newtonian Fluid Mechanics, 164 (1-3): 35-44.
158. Vand, V. 1948. Viscosity of solutions and suspensions. I. Theory. Journal of Physical Chemistry, 52 (2): 277-299.
159. Balmforth, N. J., and, Craster, R. V. 2001. Geophysical Aspects of Non-Newtonian Fluid Mechanics, Springer: Germany.
160. Jana, S. C., Kapoor, B., and, Acrivos, A. 1995. Apparent wall slip velocity coefficients in concentrated suspensions of noncolloidal particles. Journal of Rheology, 39 (6): 1123-1132.
161. Allende, M., and, Kalyon, D. M. 2000. Assessment of particle-migration effects in pressure-driven viscometric flows. Journal of Rheology, 44 (1): 79-90.
162. Wang, S-Q. 1999. Molecular Transitions and dynamics at polymer / wall interfaces: Origins of flow instabilities and wall slip. Advances in Polymer Science, 138: 227-275.
163. Mller, P. C. F., Fall, A., and, Bonn, D. 2009. Origin of apparent viscosity in yield stress fluids below yielding. Europhysics Letters, 87 (3): 38004-1-38004-6
164. Spathis, G., and, Maggana, C. 1997. A non-linear viscoelastic model for predicting the yield stress of amorphous polymers. Polymer, 38 (10): 2371-2377. (Pubitemid 127422214)
165. Saintpere, S., Herzhaft, B., Toure, A., and, Jollet, S. Rheological Properties of Aqueous Foams for Underbalanced Drilling. SPE Annual Technical Conference and Exhibition, 3-6 October. pp. 56633 Houston, Texas: SPE.
166. Roberts, G. P., Barnes, H. A., and, Carew, P. 2001. Modelling the flow behaviour of very shear-thinning liquids. Chemical Engineering Science, 56 (19): 5617-5623. (Pubitemid 32978626)
167. Denkov, N. D., Subramanian, V., Gurovich, D., and, Lips, A. 2005. Wall slip and viscous dissipation in sheared foams, Effect of surface mobility. Colloids and Surfaces A, 263 (1-3): 129-145. (Pubitemid 40825204)
168. Durairaj, R., Mallik, S., Seman, A., and, Ekere, N. N. 2009. Investigation of wall-slip effect on lead-free solder paste and isotropic conductive adhesives. Sdhan, 34 (5): 799-810.
169. Nguyen, Q. D., and, Boger, D. V. 1985. Thixotropic behaviour of concentrated bauxite residue suspensions. Rheologica Acta, 24 (4): 427-437.
170. Salmon, J.-B., Bécu, L., Manneville, S., and, Colin, A. 2003. Towards local rheology of emulsions under Couette flow using dynamic light scattering. The European Physical Journal E, 10 (3): 209-221.
171. Yoshimura, A., and, Prudhomme, R. K. 1988. Wall slip corrections for Couette and parallel disk viscometers. Journal of Rheology, 32 (1): 53-67 (Pubitemid 20649288)
172. Hatzikiriakos, S. G., and, Dealy, J. M. 1992. Wall slip of molten high density polyethylenes. II. Capillary rheometer studies. Journal of Rheology, 36 (4): 703-741.
173. Yeow, Y. L., Lee, H. L., Melvani, A. R., and, Mifsud, G. C. 2003. A new method of processing capillary viscometry data in the presence of wall slip. Journal of Rheology, 47 (2): 337-348.
174. Astarita, G., and, Marrucci, G. 1974. Principles of Non-Newtonian Fluid Mechanics, McGraw-Hill: Great Britain.
175. Bonilla, L. F., and, Shah, S. N. 2000. Experimental Investigation on the Rheology of Foams. Alberta, Canada: SPE/CERI Gas Technology Symposium, 3-5 April, Calgary.
176. Rofe, C. J., Lambert, R. K., Callaghan, P. T., de Vargas, L., and, Perez-González, J. 1996. Nuclear magnetic resonance imaging of apparent slip effects in xanthan solutions. Journal of Rheology, 40 (6): 1115-1128. (Pubitemid 126558234)
177. Callaghan, P. T., Cates, M. E., Rofe, C. J., and, Smeulders, J. B. A. F. 1996. A study of the spurt effect in wormlike micelles using nuclear magnetic resonance microscopy. Journal de Physique II, 6 (3): 375-393. (Pubitemid 126794423)
178. Britton, M. M., and, Callaghan, P. T. 1997. Nuclear magnetic resonance visualization of anomalous flow in cone-and-plate rheometry. Journal of Rheology, 41 (6): 1365-1386. (Pubitemid 127612225)
179. Hartman Kok, P. J. A, Kazarian, S. G., Lawrence, C. J., and, Briscoe, B. J. 2002. Near-wall particle depletion in a flowing colloidal suspension. Journal of Rheology, 46 (2): 481-493. (Pubitemid 34278536)
180. Gupta, S. A., Cochran, H. D., and, Cummings, P. T. 1997. Shear behavior of squalane and tetracosane under extreme confinement. I. Model, simulation method, and interfacial slip. Journal of Chemical Physics, 107 (23): 10316-10326. (Pubitemid 127608904)
181. Barrat, J-L., and, Bocquet, L. 1999. Large slip effect at a nonwetting fluid-solid interface. Physical Review Letters, 82 (23): 4671-4674. (Pubitemid 129689446)
182. Olgun, U., and, Kalyon, D. M. 2005. Use of molecular dynamics to investigate polymer melt-metal wall interactions. Polymer, 46 (22): 9423-9433. (Pubitemid 41393981)
183. Silliman, W. J., and, Scriven, L. E. 1980. Separating flow near a static contact line: Slip at a wall and shape of a free surface. Journal of Computational Physics, 34 (3): 287-313.
184. Sorbie, K. S. 1990. Depleted layer effects in polymer flow through porous media, II. Network calculations. Journal of Colloid and Interface Science, 139 (2): 315-323.
185. Lawal, A., and, Kalyon, D. M. 1994. Noimisothermal model of single screw extrusion of generalized Newtonian fluids. Numerical Heat Transfer: Part A, 26 (1): 103-121.
186. Akbulut, M., Ermler, W. C., and, Kalyon, D. M. 1997. Ab initio cluster model study of polymer-metal interactions. Computational and Theoretical Polymer Science, 7 (2): 75-80. (Pubitemid 127439294)
187. Ji, Y., Yuan, K., and, Chung, J. N. 2006. Numerical simulation of wall roughness on gaseous flow and heat transfer in a microchannel. International Journal of Heat and Mass Transfer, 49 (7-8): 1329-1339. (Pubitemid 43267673)
188. Saugey, A., Drenckhan, W., and, Weaire, D. 2006. Wall slip of bubbles in foams. Physics of Fluids, 18 (5): 053101-1-053101-12.
189. Yeow, Y. L., Leong, Y-K., and, Khan, A. 2006. Non-Newtonian flow in parallel-disk viscometers in the presence of wall slip. Journal of Non-Newtonian Fluid Mechanics, 139 (1-2): 85-92. (Pubitemid 44464031)
190. Kalyon, D. M., and, Tang, H. S. 2007. Inverse problem solution of squeeze flow for parameters of generalized Newtonian fluid and wall slip. Journal of Non-Newtonian Fluid Mechanics, 143 (2-3): 133-140. (Pubitemid 46585851)
191. Shams, M., Khadem, M. H., and, Hossainpour, S. 2009. Direct simulation of roughness effects on rarefied and compressible flow at slip flow regime. International Communications in Heat and Mass Transfer, 36 (1): 88-95.
192. James, A. E., Williams, D. J. A., and, Williams, P. R. 1987. Direct measurement of static yield properties of cohesive suspensions. Rheologica Acta, 26 (5): 437-446.
193. Barnes, H. A. 1999. The yield stressa review or everything flows. Journal of Non-Newtonian Fluid Mechanics, 81 (1): 133-178.
194. Barnes, H. A., and, Nguyen, Q. D. 2001. Rotating vane rheometrya review. Journal of Non-Newtonian Fluid Mechanics, 98 (1): 1-14.
195. Harte, F., Clark, S., and, Barbosa-Cánovas, G. V. 2007. Yield
196. Archer, L. A., Chen, Y.-L., and, Larson, R. G. 1995. Delayed slip after step strains in highly entangled polystyrene solutions. Journal of Rheology, 39 (3): 519-525.
197. Venerus, D. C., and, Nair, R. 2006. Stress relaxation dynamics of an entangled polystyrene solution following step strain flow. Journal of Rheology, 50 (1): 59-75. (Pubitemid 43017976)
198. Sochi, T. 2009. Pore-scale modeling of viscoelastic flow in porous media using a Bautista-Manero fluid. International Journal of Heat and Fluid Flow, 30 (6): 1202-1217.
199. Sochi, T. 2010. Non-Newtonian flow in porous media. Polymer, 51 (22): 5007-5023. 2010
200. Chauveteau, G. 1982. Rodlike polymer solution flow through fine pores: Influence of pore size on rheological behavior. Journal of Rheology, 26 (2): 111-142. (Pubitemid 13477289)
201. Sorbie, K. S., Clifford, P. J., and, Jones, E. R. W. 1989. The rheology of pseudoplastic fluids in porous media using network modeling. Journal of Colloid and Interface Science, 130 (2): 508-534.
202. Kozicki, W., Chou, C. H., and, Tiu, C. 1966. Non-Newtonian flow in ducts of arbitrary cross-sectional shape. Chemical Engineering Science, 21 (8): 665-679.
203. Yilmazer, U, and, Kalyon, D. M. 1989. Slip effects in capillary and parallel disk torsional flows of highly filled suspensions. Journal of Rheology, 33 (8): 1197-1212. (Pubitemid 20643877)
204. Kalyon, D. M. 2010. An analytical model for steady coextrusion of viscoplastic fluids in thin slit dies with wall slip. Polymer Engineering & Science, 50 (4): 652-664.
205. Yaras, P., Kalyon, D. M., and, Yilmazer, U. 1994. Flow instabilities in capillary flow of concentrated suspensions. Rheologica Acta, 33 (1): 48-59. (Pubitemid 278450)
206. Hu, Y. T., and, Boltenhagen, P. 1998. Shear thickening in low-concentration solutions of wormlike micelles. II. Slip, fracture, and stability of the shear-induced phase. Journal of Rheology, 42 (5): 1209-1226. (Pubitemid 128597610)
207. Picard, G., Ajdari, A., Bocquet, L., and, Lequeux, F. 2002. Simple model for heterogeneous flows of yield stress fluids. Physical Review E, 66 (5): 051501-1-051501-12
208. Tang, H. S., and, Kalyon, D. M. 2008. Unsteady circular tube flow of compressible polymeric liquids subject to pressure-dependent wall slip. Journal of Rheology, 52 (2): 507-525. (Pubitemid 351357549)
209. Tang, H. S., and, Kalyon, D. M. 2008. Time-dependent tube flow of compressible suspensions subject to pressure dependent wall slip: Ramifications on development of flow instabilities. Journal of Rheology, 52 (5): 1069-1090.
210. Sochi, T. 2010. Flow of non-Newtonian fluids in porous media. Journal of Polymer Science Part B, 48 (23): 2437-2467.
211. Mannheimer, R. J. 1991. Laminar and turbulent flow of cement slurries in large diameter pipe: A comparison with laboratory viscometers. Journal of Rheology, 35 (1): 113-133.
212. Sochi, T., and, Blunt, M. J. 2008. Pore-scale network modeling of Ellis and Herschel-Bulkley fluids. Journal of Petroleum Science and Engineering, 60 (2): 105-124. (Pubitemid 351168410)
213. Sochi, T. 2010. Modelling the flow of yield-stress fluids in porous media. Transport in Porous Media, 85 (2): 489-503.
214. Seth, J. R., Cloitre, M., and, Bonnecaze, R. T. 2006. Elastic properties of soft particle pastes. Journal of Rheology, 50 (3): 353-376.
215. Sochi, T. 2010. Computational techniques for modeling non-Newtonian flow in porous media. International Journal of Modeling, Simulation, and Scientific Computing, 1 (2): 239-256.
216. Larson, R. G. 1988. Analytic results for viscoelastic flow in a porous tube. Journal of Non-Newtonian Fluid Mechanics, 28 (3): 349-371. (Pubitemid 18654065)
217. Barnes, H. A., Hutton, J. E., and, Walters, K. 1993. An Introduction to Rheology, Amsterdam: Elsevier.
218. Barnes, H. A. 1997. Thixotropya review. Journal of Non-Newtonian Fluid Mechanics, 70 (1): 1-33.
219. Skelland, A. H. P. 1967. Non-Newtonian Flow and Heat Transfer, Hoboken, NJ: John Wiley and Sons Inc.
220. Lupton, J. M., and, Regester, H. W. 1965. Melt flow of polyethylene at high rates. Polymer Engineering & Science, 5 (4): 235-245.
221. Wapperom, P. 1996. Nonisothermal flows of viscoelastic fluids. Thermodynamics, analysis, and numerical simulation. The Netherlands: PhD thesis, Delft University of Technology.
222. Citerne, G. P., Carreau, P. J., and, Moan, M. 2001. Rheological properties of peanut butter. Rheologica Acta, 40 (1): 86-96. (Pubitemid 32192342)
223. Persello, J., Chang, J., Cabane, B., Magnin, A., and, Piau, J. M. 1994. Flow of colloidal aqueous silica dispersions. Journal of Rheology, 38 (6): 1845-1870.