A. Howard, J. Barnes, H. Fletcher, and W. Kenneth, An introduction to rheology, 1989.

M. Normand, . Laurendeau, M. Normand, and . Laurendeau, Statistical thermodynamics : fundamentals and applications, 2005.

H. A. Barnes and . Shear-thickening, Dilatancy") in suspensions of nonaggregating solid particles dispersed in Newtonian liquids, Journal of Rheology, vol.33, pp.329-366, 1989.

M. Jan, J. Norman, . Wagner, and . Thixotropy, Advances in Colloid and Interface Science, vol.147, pp.214-227, 2009.

J. Andrea, . Liu, R. Sidney, and . Nagel, « Nonlinear dynamics : Jamming is not just cool any more, Nature, vol.396, p.21, 1998.

C. Michel, T. Roger, and . Bonnecaze, A review on wall slip in high solid dispersions, Rheologica Acta, vol.56, pp.283-305, 2017.

E. Michael and . Cates, Jamming, force chains, and fragile matter, Physical review letters, vol.81, p.1841, 1998.

P. Coussot, « Yield stress fluid flows : A review of experimental data, Journal of Non-Newtonian Fluid Mechanics, vol.211, pp.31-49, 2014.

S. Francesco, « Disordered materials : One liquid, two glasses, Nature materials, vol.1, issue.3, p.145, 2002.

P. Ballesta, Slip and flow of hard-sphere colloidal glasses, Physical Review Letters, vol.101, p.258301, 2008.

P. J. Whitcomb and C. W. Macosko, Rheology of xanthan gum, vol.22, pp.493-505, 1978.

P. Coussot, « Structural similarity and transition from Newtonian to nonNewtonian behavior for clay-water suspensions, Physical review letters, vol.74, p.3971, 1995.

A. Fernandez-nieves, Microgel suspensions : fundamentals and applications, 2011.

. Hm-princen, « Rheology of foams and highly concentrated emulsions : I. Elastic properties and yield stress of a cylindrical model system, Journal of Colloid and interface science, vol.91, issue.1, pp.160-175, 1983.

. Hm-princen and . Kiss, « Rheology of foams and highly concentrated emulsions : IV. An experimental study of the shear viscosity and yield stress of concentrated emulsions, Journal of colloid and interface science, vol.128, pp.176-187, 1989.

L. Eric, B. Michael, and S. Howard, « Microfluidics : the noslip boundary condition, Springer handbook of experimental fluid mechanics, pp.1219-1240, 2007.

. Bibliographie,

R. «. Osborne and . Xxix, An experimental investigation of the circumstances which determine whether the motion of water shall he direct or sinuous, and of the law of resistance in parallel channels, Philosophical Transactions of the Royal Society of London, vol.174, pp.935-982, 1883.

B. Lydéric and B. Jean-louis, « Flow boundary conditions from nano-to micro-scales, Soft matter, vol.3, pp.685-693, 2007.

B. Lydéric and B. Jean-louis, Hydrodynamic boundary conditions, correlation functions, and Kubo relations for confined fluids, Physical Review E, vol.49, p.3079, 1994.

J. M. Georges, « Drainage of thin liquid films between relatively smooth surfaces, The Journal of chemical physics, vol.98, pp.7345-7360, 1993.

C. Cécile, « Dynamics of simple liquids at heterogeneous surfaces : Molecular-dynamics simulations and hydrodynamic description, The European Physical Journal E, vol.15, pp.427-438, 2004.

Y. C. Derek, R. G. Chan, and . Horn, « The drainage of thin liquid films between solid surfaces, The Journal of chemical physics, vol.83, pp.5311-5324, 1985.

O. Guillaume, « Phenomenology and physical origin of shear localization and shear banding in complex fluids, Rheologica acta, vol.48, pp.831-844, 2009.

P. Jacques, Flow of colloidal aqueous silica dispersions, Journal of Rheology, vol.38, pp.1845-1870, 1994.

A. Howard and . Barnes, « 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, vol.56, pp.221-251, 1995.

P. Ballesta, « Wall slip and flow of concentrated hard-sphere colloidal suspensions, Journal of Rheology, vol.56, pp.1005-1037, 2012.

B. Pierre, Slip of gels in colloid-polymer mixtures under shear, Soft Matter, vol.9, pp.3237-3245, 2013.

. Hm-princen and . Kiss, « Osmotic pressure of foams and highly concentrated emulsions. 2. Determination from the variation in volume fraction with height in an equilibrated column, Langmuir, vol.3, pp.36-41, 1987.

D. Nikolai and . Denkov, Wall slip and viscous dissipation in sheared foams : Effect of surface mobility, Colloids and Surfaces A : Physicochemical and Engineering Aspects, vol.263, pp.129-145, 2005.

D. Nikolai and . Denkov, Foam-wall friction : effect of air volume fraction for tangentially immobile bubble surface, Colloids and Surfaces A : Physicochemical and Engineering Aspects, vol.282, pp.329-347, 2006.

L. E. Marie and . Merrer, Linear and non-linear wall friction of wet foams, Soft matter, vol.11, issue.2, pp.368-381, 2015.

B. Richard, M. Ian, and A. , The rheology of concentrated dispersions of weakly attracting colloidal particles with and without wall slip, Journal of Rheology, vol.37, pp.621-641, 1993.

T. Gregory and S. Mayers, A note on slippage during the study of the rheological behaviour of paste inks, Surface coatings international, vol.76, pp.82-88, 1993.

H. E. Bennett and J. O. Porteus, « Relation between surface roughness and specular reflectance at normal incidence, JOSA 51, vol.2, pp.123-129, 1961.

M. Petia, . Vlahovska, P. Thomas, and M. Chaouqi, Vesicles and red blood cells in flow : From individual dynamics to rheology, vol.10, pp.775-789, 2009.

S. Ozkan, Characterization of yield stress and slip behaviour of skin/hair care gels using steady flow and LAOS measurements and their correlation with sensorial attributes, International journal of cosmetic science, vol.34, issue.2, pp.193-201, 2012.

R. Jason, . Stokes, W. Michael, . Boehm, K. Stefan et al., « Oral processing, texture and mouthfeel : From rheology to tribology and beyond, Current Opinion in Colloid & Interface Science, vol.18, pp.349-359, 2013.

C. Liangyong, Rheological behavior and wall slip of concentrated coal water slurry in pipe flows, Process Intensification, vol.48, pp.1241-1248, 2009.

R. Natthakan, Development of a Self-Slippery Liquid-Infused Porous Surface (SLIPS) Coating Using Carbon Nanotube Composite for Repelling Food Debris and Microbial Biofilms, Transactions of the ASABE, vol.58, pp.861-867, 2015.

A. Faith and . Morrison, Understanding Rheology, Topics in Chemical Engineering, 2001.

M. Melvin, Explicit formulas for slip and fluidity, Journal of Rheology, pp.210-222, 1929.

T. Kilja´nskikilja´-kilja´nski, A method for correction of the wall-slip effect in a Couette rheometer, Rheologica acta, vol.28, pp.61-64, 1989.

Y. Ann, K. Robert, and . Prud'homme, Wall slip corrections for Couette and parallel disk viscometers, Journal of Rheology, vol.32, pp.53-67, 1988.

G. Ronald and . Larson, The structure and rheology of complex fluids. T. 150

A. Magnin and J. M. Piau, « Cone-and-plate rheometry of yield stress fluids. Study of an aqueous gel, Journal of Non-Newtonian Fluid Mechanics, vol.36, pp.85-108, 1990.

M. Dilhan and . Kalyon, « Rheological behavior of a concentrated suspension : A solid rocket fuel simulant, Journal of rheology, vol.37, pp.35-53, 1993.

. Hm-princen, « Rheology of foams and highly concentrated emulsions. II. Experimental study of the yield stress and wall effects for concentrated oilin-water emulsions, Journal of colloid and interface science, vol.105, pp.150-171, 1985.

P. Steven, . Meeker, T. Roger, . Bonnecaze, and C. Michel, Slip and flow in pastes of soft particles : Direct observation and rheology, vol.48, pp.1295-1320, 2004.

P. Steven, . Meeker, T. Roger, . Bonnecaze, and C. Michel, Slip and flow in soft particle pastes, vol.92, p.198302, 2004.

R. Jyoti and . Seth, How do soft particle glasses yield and flow near solid surfaces ?, Soft Matter, vol.8, issue.1, pp.140-148, 2012.

. Bibliographie,

A. Vayssade, « Dynamical role of slip heterogeneities in confined flows, Physical Review E, vol.89, p.52309, 2014.

L. I. Zhenzhen, Slip Length Measurements Using µPIV and TIRF-Based Velocimetry, vol.54, pp.1589-1601, 2014.

B. Daniel, Some applications of magnetic resonance imaging in fluid mechanics : complex flows and complex fluids, Annu. Rev. Fluid Mech, vol.40, pp.209-233, 2008.

T. Paul and N. Callaghan.-«-rheo, Rheologica Acta, vol.47, pp.243-255, 2008.

B. Bernhard and . Paul-t-callaghan, Principles of nuclear magnetic resonance microscopy, vol.492, 1993.

T. Paul, . Callaghan, and . Rheo, NMR : nuclear magnetic resonance and the rheology of complex fluids, Reports on Progress in Physics, vol.62, p.599, 1999.

R. Stéphane, Développements récents dans l'application de l'IRM à la rhéologie et à la mécanique des fluides, Comptes Rendus Chimie, vol.7, pp.275-282, 2004.

C. Philippe, Rheometry of pastes, suspensions, and granular materials : applications in industry and environment, 2005.

G. Thomas, Ultrafast ultrasonic imaging coupled to rheometry : Principle and illustration, Review of Scientific Instruments, vol.84, p.45107, 2013.

M. Sébastien, B. Lydiane, and C. Annie, « High-frequency ultrasonic speckle velocimetry in sheared complex fluids, The European Physical Journal-Applied Physics, vol.28, pp.361-373, 2004.

D. Thibaut, « Transient shear banding in a simple yield stress fluid, Physical Review Letters, vol.104, p.208301, 2010.

D. Thibaut, Yielding dynamics of a Herschel-Bulkley fluid : a critical-like fluidization behaviour, Soft Matter, vol.8, pp.4151-4164, 2012.

D. Thibaut, « Wall slip across the jamming transition of soft thermoresponsive particles, Physical Review E, vol.92, p.60301, 2015.

H. Peter, K. G. Jan, . Dhont, R. Peter, and . Lang, « Colloidal dynamics near a wall studied by evanescent wave light scattering : Experimental and theoretical improvements and methodological limitations, The Journal of chemical physics, vol.126, p.44707, 2007.

B. Loppinet, J. Dhont, and P. Lang, « Near-field laser Doppler velocimetry measures near-wall velocities, The European Physical Journal E, vol.35, p.62, 2012.

D. Nikolai and . Denkov, The role of surfactant type and bubble surface mobility in foam rheology, Soft Matter, vol.5, pp.3389-3408, 2009.

H. Axel, M. Vincent, and J. Marie-caroline, Bubbles and foams in microfluidics, vol.10, pp.6888-6902, 2014.

C. Sylvie and H. Et-reinhard, « Rheology of foams and highly concentrated emulsions, Current Opinion in Colloid & Interface Science, vol.19, pp.536-548, 2014.

F. P. Bretherton, « The motion of long bubbles in tubes, Journal of Fluid Mechanics, vol.10, pp.166-188, 1961.

C. Isabelle, Liquid meniscus friction on a wet plate : Bubbles, lamellae, and foams, vol.25, p.31303, 2013.

P. Hartman-kok, Near-wall depletion in a flowing colloidal suspension, J Rheol, vol.42, pp.481-493, 2001.

K. Pja-hartman, Effects of particle size on near-wall depletion in mono-dispersed colloidal suspensions, Journal of colloid and interface science, vol.280, pp.511-517, 2004.

I. Lucio, B. Rut, C. K. Wilson, and . Poon, « Shear zones and wall slip in the capillary flow of concentrated colloidal suspensions, Physical Review Letters, vol.98, p.198305, 2007.

V. Bertola, « Wall slip and yielding in pasty materials, Journal of Rheology, vol.47, pp.1211-1226, 2003.
DOI : 10.1122/1.1595098

B. Lydiane, How does a concentrated emulsion flow ? : yielding, local rheology, and wall slip, Colloids and Surfaces A : Physicochemical and Engineering Aspects, vol.263, pp.146-152, 2005.

J. Salmon, Towards local rheology of emulsions under Couette flow using Dynamic Light Scattering, The European Physical Journal E, vol.10, pp.209-221, 2003.
DOI : 10.1140/epje/i2002-10110-5

URL : https://hal.archives-ouvertes.fr/hal-00110987

R. Jyoti, . Seth, C. Michel, T. Roger, and . Bonnecaze, « Influence of shortrange forces on wall-slip in microgel pastes, Journal of Rheology, vol.52, pp.1241-1268, 2008.

R. Jyoti and . Seth, A micromechanical model to predict the flow of soft particle glasses, Nature materials, vol.10, p.838, 2011.

P. Coussot and F. Gaulard, « Gravity flow instability of viscoplastic materials : The ketchup drip, Physical Review E, vol.72, p.31409, 2005.
DOI : 10.1103/physreve.72.031409

N. Roussel and C. Ph, Fifty-cent rheometer" for yield stress measurements : from slump to spreading flow, Journal of Rheology, vol.49, pp.705-718, 2005.
DOI : 10.1122/1.1879041

B. Quentin, « Superposition d'écoulements orthogonaux dans des fluides complexes : mise en place de l'expérience, application aux suspensions et aux fluides à seuil, 2011.

O. Guillaume, B. Quentin, and C. Philippe, « Three-dimensional jamming and flows of soft glassy materials, Nature materials, vol.9, p.115, 2010.

W. Christopher and . Macosko, Rheology : principles, measurements, and applications, 1994.

G. German and V. Bertola, « Formation of viscoplastic drops by capillary breakup, Physics of fluids, vol.22, p.33101, 2010.

J. Boujlel and C. Philippe, « Measuring the surface tension of yield stress fluids, Soft Matter, vol.9, pp.5898-5908, 2013.

T. Sridhar, « Measurement of extensional viscosity of polymer solutions, Journal of non-newtonian fluid mechanics, vol.40, pp.271-280, 1991.

H. Gareth, . Mckinley, and S. Tamarapu, « Filament-stretching rheometry of complex fluids, Annual Review of Fluid Mechanics, vol.34, pp.375-415, 2002.

K. Manish and . Tiwari, « Elongational and shear rheology of carbon nanotube suspensions, Rheologica acta, vol.48, pp.597-609, 2009.

N. Katarzyna, B. Hans, and W. Norbert, « Extensional rheology of concentrated emulsions as probed by capillary breakup elongational rheometry (CaBER) ». In : Rheologica acta 49, pp.1103-1116, 2010.

L. Nicolas, B. Daniel, and K. Hamid, « Nonuniversality in the Pinch-Off of Yield Stress Fluids : Role of Nonlocal Rheology, Physical Review Letters, vol.113, p.218302, 2014.

M. Laëtitia, B. Hans, and N. Willenbacher, « Apparent elongational yield stress of soft matter, Journal of rheology, vol.57, pp.627-646, 2013.

B. Quentin, Adhesion of yield stress fluids, Soft Matter, vol.6, pp.1343-1351, 2010.

C. Philippe and . Saffman, Taylor instability in yield-stress fluids, vol.380, pp.363-376, 1999.

, Glycerine Producers' ASSOCIATION. Physical Properties of Glycerine and Its Solutions, 1963.

A. Volk, J. Christian, and . Kähler, « Density model for aqueous glycerol solutions, Experiments in Fluids, vol.59, p.75, 2018.
DOI : 10.1007/s00348-018-2527-y

URL : https://link.springer.com/content/pdf/10.1007%2Fs00348-018-2527-y.pdf

C. Thibaud, « Écoulements de fluides à seuil en milieux confinés, 2013.

, Silverson L4RT High Shear Mixer, 2008.

S. Machines and I. , Silverson L4RT High Shear Mixer, 2008.

C. Mabille, « Rheological and shearing conditions for the preparation of monodisperse emulsions, Langmuir, vol.16, pp.422-429, 2000.

T. T. and L. N. , Approche micromécanique du comportement d'une suspension de bulles dans un fluide à seuil, 2015.

A. Christophe and J. Hélene, « Yield stress for particle suspensions within a clay dispersion, Journal of Rheology, vol.45, pp.297-319, 2001.

D. W. Schaefer, Physics of finely divided matter, pp.24-30, 1985.

M. Morvan, Ultrasmall-and small-angle X-ray scattering of smectite clay suspensions, Colloids and Surfaces A : Physicochemical and engineering aspects, vol.82, pp.193-203, 1994.
DOI : 10.1016/0927-7757(93)02656-y

B. Elena, Microstructure and rheological properties of concentrated tomato suspensions during processing, 2008.

J. M. Piau, « Carbopol gels : Elastoviscoplastic and slippery glasses made of individual swollen sponges : Meso-and macroscopic properties, constitutive equations and scaling laws, Journal of non-newtonian fluid mechanics, vol.144, pp.1-29, 2007.

B. Jalila, Boundary layer in pastes-Displacement of a long object through a yield stress fluid, Journal of Rheology, vol.56, pp.1083-1108, 2012.

, Preparation of steel substrates before application of paints and related products -Surface roughness characteristics of blast-cleaned steel substrates. Standard. Geneva, CH : International Organization for Standardization, fév, 1988.

O. Feuilles-de-toile-Émeri, , pp.2018-2029

W. Larry, . Shive, L. Brian, and . Gilmore, « Impact of thermal processing on silicon wafer surface roughness, ECS Transactions, vol.16, pp.401-405, 2008.

J. Henri, The black silicon method : a universal method for determining the parameter setting of a fluorine-based reactive ion etcher in deep silicon trench etching with profile control, Journal of Micromechanics and Microengineering, vol.5, p.115, 1995.

C. Mathilde and . Reyssat, Splendeur et misère de l'effet lotus, vol.6, 2007.

A. David and . Saab, Propriétés optiques, mécanismes de formation et applications du silicium noir, 2015.

D. Abi and S. , Static and dynamic aspects of black silicon formation, Physical Review Letters, vol.113, p.265502, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01767962

T. Paul, . Callaghan, F. Elmar, and . Rheo, NMR : A New Application for NMR Microscopy and NMR Spectroscopy, vol.149, pp.34-38, 2001.

D. Thibaut, G. Vincent, and M. Sébastien, « Rheological hysteresis in soft glassy materials, Physical review letters, vol.110, p.18304, 2013.

J. Peter and . Yunker, Suppression of the coffee-ring effect by shape-dependent capillary interactions, Nature, vol.476, p.308, 2011.

P. Coussot, Viscosity bifurcation in thixotropic, yielding fluids, vol.46, pp.573-589, 2002.
DOI : 10.1122/1.1459447

URL : https://digital.library.adelaide.edu.au/dspace/bitstream/2440/882/1/hdl_882.pdf

T. M. Lai and . Mortland, Diffusion of Ions in Bentonite and Vermiculite, vol.1, pp.353-357, 1961.

H. M. Princen, Highly concentrated emulsions. I. Cylindrical systems, Journal of Colloid and Interface Science, vol.71, pp.55-66, 1979.

R. Si-raider, M. J. Flitsch, and . Palmer, « Oxide growth on etched silicon in air at room temperature, Journal of the Electrochemical Society, vol.122, pp.413-418, 1975.

S. J. Spencer, G. T. Andrews, and C. G. Deacon, « Contact angle of ethanol-water solutions on crystalline and mesoporous silicon, Semiconductor Science and Technology, vol.28, p.55011, 2013.

. Bibliographie,

J. Dimitri, Static solvent contact angle measurements, surface free energy and wettability determination of various self-assembled monolayers on silicon dioxide, Thin Solid Films, vol.515, issue.4, pp.1433-1438, 2006.

G. Julie, C. Annie, and B. Lydéric, « How does a soft glassy material flow : finite size effects, non local rheology, and flow cooperativity, Soft Matter 6, vol.12, pp.2668-2678, 2010.

O. Guillaume, Wide-gap Couette flows of dense emulsions : Local concentration measurements, and comparison between macroscopic and local constitutive law measurements through magnetic resonance imaging, Physical Review E, vol.78, p.36307, 2008.

J. Loren, « Yield stress and elasticity influence on surface tension measurements, Soft Matter, vol.11, pp.5111-5121, 2015.

M. Vincent, B. Lydéric, and C. Annie, « Boundary conditions for soft glassy flows : slippage and surface fluidization, Soft matter, vol.10, pp.6984-6989, 2014.

D. Ladislav, « Fluidization and wall slip of soft glassy materials by controlled surface roughness, Physical Review E, vol.95, p.52602, 2017.

P. José, S. Noushine, and B. Daniel, « Wall slip and fluidity in emulsion flow, Physical Review E, vol.92, p.42313, 2015.

C. Philippe, Rhéophysique la matière dans tous ses Etats, 2012.

X. Zhang, Yielding and Flow of Soft-Jammed Systems in Elongation, Physical review letters, vol.120, p.48001, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02004285