J. Sanahuja, Impact de la morphologie structurale sur les performances mécaniques des matériaux de construction : application aux plâtres et à la pâte de ciment

G. Akay, M. A. Birch, and M. A. Bokhari, Microcellular polyHIPE polymer supports osteoblast growth and bone formation in vitro, Biomaterials, vol.25, issue.18, 2003.
DOI : 10.1016/j.biomaterials.2003.10.086

H. P. Tang, J. Z. Wang, J. L. Zhu, Q. B. Ao, J. Y. Wang et al., Fractal dimension of pore-structure of porous metal materials made by stainless steel powder, Powder Technology, vol.217, issue.0, pp.217383-387, 2012.
DOI : 10.1016/j.powtec.2011.10.053

C. Zhao, A. Ord, and B. E. Hobbs, Fundamentals of computational geoscience, 2009.

G. De and . Marsily, Quantitative hydrogeology : groundwater hydrology for engineers, 1986.

K. Kovarik, Numerical models in groundwater pollution, 2000.
DOI : 10.1007/978-3-642-56982-1

T. F. Kortekaas, Water/oil displacement characteristics in crossbedded reservoir zones. Soc. of Petroleum Eng, 1985.

F. A. Dullien, Porous Media, 1992.

A. E. Scheidegger, The Physics of Flow Through Porous Media, Soil Science, vol.86, issue.6, 1974.
DOI : 10.1097/00010694-195812000-00015

T. Benno, Y. Yoon, C. S. , and S. P. Fritton, Estimation of bone permeability using accurate microstructural measurements, Journal of Biomechanics, vol.39, issue.13, 2006.
DOI : 10.1016/j.jbiomech.2005.08.005

N. Combaret, Combined use of finite volume and network modelling for stokes flow and permeability tensor computation in porous media, 2011.

S. Dmitriy and T. Patzek, Pore space morphology analysis using maximal inscribed spheres, Physica A, 2006.

G. S. Armatas and P. J. Pomonis, A Monte Carlo pore network for the simulation of porous characteristics of functionalized silica: pore size distribution, connectivity distribution and mean tortuosities, Chemical Engineering Science, vol.59, issue.24, 2008.
DOI : 10.1016/j.ces.2004.06.047

W. B. Lindquist and A. Ventakaranga, Investigating 3D geometry of porous media from high resolution images, Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy, vol.24, issue.7, 1998.
DOI : 10.1016/S1464-1895(99)00085-X

M. M. Dubinin, The sorption of water vapour by active carbon, Journal of the Chemical Society (Resumed), 1955.
DOI : 10.1039/jr9550001760

H. Darcy, Les fontaines de la ville de dijon

P. G. Saffman, A theory of dispersion in a porous medium, Journal of Fluid Mechanics, vol.39, issue.03, 1959.
DOI : 10.1063/1.1721815

P. C. Carman, Fluid flow trough granular bed. Institution of Chemical Engineering, 1937.

J. Bear and Y. Batchman, Hydrodynamic Dispersion in Non-uniform Flow Through Porous Media, Taking into Account Density and Viscosity Differences, 1966.

A. S. Iberall, Permeability of glass wool and other highly porous media, Journal of Research of the National Bureau of Standards, vol.45, issue.5, 1950.
DOI : 10.6028/jres.045.043

I. Fatt, The network model of porous media (i, ii, and iii). Soc. of Petroleum Eng, 1956.

M. Balhoff, D. Sanchez-rivera, Y. Mehmani, and M. Prodanovic, Numerical algorithms for network modeling of yield stress and other nno-newtonian fluids in porous media, Transp. Porous Med, 2012.

S. Ergun, Fluid flow through packed columns, Chemical Engineering Progress, 1952.
DOI : 10.1021/ie50474a011

P. Lehman, M. Berchtold, B. Ahrenholz, J. Tölke, A. Kaestner et al., Impact of geometrical properties on permeability and fluid phase distribution in porous media, Advances in Water Resources, vol.31, issue.9, 2008.
DOI : 10.1016/j.advwatres.2008.01.019

W. R. Purcell, Capillary pressures -their measurement using mercury and the calculation of permeability therefrom. Transactions of the AIME, 1949.

H. Giesche, Mercury Porosimetry, 2006.
DOI : 10.1002/9783527618286.ch9

E. W. Washburn, The dynamics of capillary flow. The physical review, 1921.

P. G. De and . Gennes, Wetting: statics and dynamics. Reviews of modern physics, 1985.

K. K. Aligizaki, Pore Structure of Cement-Based Materials, 2006.

I. Langmuir, THE CONSTITUTION AND FUNDAMENTAL PROPERTIES OF SOLIDS AND LIQUIDS. PART I. SOLIDS., Journal of the American Chemical Society, vol.38, issue.11, 1916.
DOI : 10.1021/ja02268a002

S. Brunauer, P. H. Emmett, and E. Teller, Adsorption of Gases in Multimolecular Layers, Journal of the American Chemical Society, vol.60, issue.2, 1938.
DOI : 10.1021/ja01269a023

W. D. Harkins and G. Jura, Surfaces of Solids. XIII. A Vapor Adsorption Method for the Determination of the Area of a Solid without the Assumption of a Molecular Area, and the Areas Occupied by Nitrogen and Other Molecules on the Surface of a Solid, Journal of the American Chemical Society, vol.66, issue.8, 1944.
DOI : 10.1021/ja01236a048

F. Rouquerol, L. Liciani, P. Llewellyn, and J. Rouquerol, Texture des matériaux pulvérulents ou poreux, 2003.

E. P. Barrett, L. G. Joyner, and P. P. Halenda, The determination of pore volume and area distributions in porous substances, Journal of the American Chemical Society, 1951.

Y. Wang, M. Zheng, H. Lu, F. Feng, G. Ji et al., Template Synthesis of Carbon Nanofibers Containing Linear Mesocage Arrays, Nanoscale Research Letters, vol.18, issue.6, 2009.
DOI : 10.1007/s11671-010-9562-9

W. Kuhn, E. Peterli, and H. Majer, Freezing point depression of gels produced by high polymer network, Journal of Polymer Science, vol.16, issue.82, 1955.
DOI : 10.1002/pol.1955.120168238

M. Brun, A. Lallemand, J. Quinson, and C. Eyraud, A new method for the simultaneous determination of the size and shape of pores: the thermoporometry, Thermochimica Acta, vol.21, issue.1, 1977.
DOI : 10.1016/0040-6031(77)85122-8

I. Beurroies, R. Denoyel, P. Llewellyn, and J. Jouquerol, A comparison between melting-solidification and capillary condensation hysteresis in mesoporous materials: application to the interpretation of thermoporometry data, Thermochimica Acta, vol.421, issue.1-2, 2004.
DOI : 10.1016/j.tca.2004.03.008

J. Mitchell, J. B. Webber, and J. H. Strange, Nuclear magnetique resonance cryoporometry, 2004.

A. P. Radlinsky, M. Mastalrez, A. L. Hinde, M. Hainbuchner, H. Rauch et al., Application of saxs and sans in evaluation of porosity, pore size distribution and surface area of coal Coal geology, 2004.

S. Davies and K. J. Packer, Pore size distribution from nuclear magnetique resonance spinlattice relaxation measurements of fluid-saturated porous solids, Journal of Applied Physics, 1990.

K. S. Chon, S. K. Juhng, and K. H. Yoon, Design study of hard x-ray tomography system to obtain a spatial resolution of 100nm, Current Applied Physics, 2012.

H. Giesche, Mercury Porosimetry, 2006.
DOI : 10.1002/9783527618286.ch9

F. Rouquerol, L. Liciani, P. Llewellyn, and J. Rouquerol, Texture des matériaux pulvérulents ou poreux, 2003.

E. C. Bingham, Fluidity and Plasticity, 1922.

R. E. Robertson and H. A. Stiff, An improved rheological model for relating shear stress to shear rate in drilling fluids and cement slurries, Trans. AIME, pp.31-36, 1976.

N. Casson, A flow equation for pigment-oil suspesions of the printing ink type. Rheology of Disperse Systems, pp.84-104, 1959.

A. H. Skelland, Non-newtonian flow and heat transfer, 1967.

G. Govier and K. Aziz, The Flow of Complex Mixtures in Pipes, Journal of Applied Mechanics, vol.40, issue.2, 1982.
DOI : 10.1115/1.3422996

R. B. Bird, R. C. Armstrong, and O. Hassager, Dynamic of polymeric liquids, J

R. P. Chhabra and J. F. Richardson, Non-newtonian flow in the process industries : fundamentals and engineering applications, 1966.

T. Sochi, Modeling the flow of yield-stress fluids in porous media. Transp. Porous Media, pp.489-503, 2010.

A. Oukhlef, Détermination de la distribution de tailles de pores d'un milieu poreux, 2011.

D. Dupuis, Mesure de la viscosité -viscosimètres et rhéomètres, p.2351, 2008.

P. C. Moller, J. Mewis, and D. Bonn, Yield stress and thixotropy: on the difficulty of measuring yield stresses in practice, Soft Matter, vol.50, issue.4, pp.274-283, 2006.
DOI : 10.1039/b517840a

P. C. Moller, A. Fall, and D. Bonn, Origin of apparent viscosity in yield stress fluids below yielding, EPL (Europhysics Letters), vol.87, issue.3, 2009.
DOI : 10.1209/0295-5075/87/38004

H. A. Barnes, The yield stress-a review or "panta rei"-everything flows? Journ. of Non- Newtonian Fluid Dynamics, pp.133-178, 1999.

H. A. Barnes and K. Wlaters, The yield stress myth? Rheologica acta, pp.323-326, 1985.

R. P. Chhabra, Bubbles, Drops, and Particles in Non-Newtonian Fluids, 2007.

W. Kulicket, A. H. Kull, W. Kull, and T. H. , Characterization of aqueous cmc solutions in terms of their molecular structure and its influence on rheological behaviour, Polymer, pp.2723-2731, 1996.

P. F. Luckham and S. Rossi, The colloidal and rheological properties of bentonite suspensions, Advances in Colloid and Interface Science, vol.82, issue.1-3, pp.43-92, 1999.
DOI : 10.1016/S0001-8686(99)00005-6

N. P. Chafe, J. R. De, and . Bruyn, Drag and relaxation in a bentonite clay suspension, Journal of Non-Newtonian Fluid Mechanics, vol.131, issue.1-3, pp.44-52, 2005.
DOI : 10.1016/j.jnnfm.2005.08.010

M. Benna, N. Kbir-ariguib, A. Magnin, and F. Bergaya, Effect of pH on Rheological Properties of Purified Sodium Bentonite Suspensions, Journal of Colloid and Interface Science, vol.218, issue.2, pp.442-455, 1999.
DOI : 10.1006/jcis.1999.6420

A. Besq, A. Malfoy, C. Pantet, P. Monnet, and D. Righi, Physicochemical characterisation and flow properties of some bentonite muds, Applied Clay Science, vol.23, issue.5-6, pp.275-286, 2003.
DOI : 10.1016/S0169-1317(03)00127-3

E. Tombacz and M. Szekeres, Colloidal behavior of aqueous montmorillonite suspensions: the specific role of pH in the presence of indifferent electrolytes, Applied Clay Science, vol.27, issue.1-2, pp.75-94, 2004.
DOI : 10.1016/j.clay.2004.01.001

S. Paumier, Facteurs déterminant l'organisation et la rhéologie du système argile-eau pour des suspensions de smectites, 2007.

B. F. Goodrich, Carbopol, polymers for pharmaceutical applications, 1996.

F. K. Oppong and J. R. De-bruyn, Microrheology and jamming in a yield-stress fluids, Rheologica acta, pp.317-326, 2010.

S. R. Derkach, Rheology of emulsions, Advances in Colloid and Interface Science, vol.151, issue.1-2, pp.1-23, 2009.
DOI : 10.1016/j.cis.2009.07.001

J. G. Oldroy, The elastic and viscous properties of emulsions and suspensions, Proceedings of the Royal Society of London A, pp.123-132, 1953.

H. Liu, X. M. Xu, and S. D. Guo, Rheological, texture and sensory properties of low-fat mayonnaise with different fat mimetics. Food science and technology, pp.946-954, 2007.

P. G. Saffman and G. Taylor, The penetration of a fluid into a porous medium or hele-shaw cell containing a more viscous liquid, Proc. of the Roy, pp.312-329, 1958.

J. R. Womersley, Method for the calculation of velocity, rate of flow and viscous drag in arteries when the pressure gradient is known, The Journal of Physiology, vol.127, issue.3, pp.553-563, 1955.
DOI : 10.1113/jphysiol.1955.sp005276

H. B. Atabek and C. C. Chang, Oscillatory flow near the entry of a circular tube, Zeitschrift f??r angewandte Mathematik und Physik ZAMP, vol.12, issue.3
DOI : 10.1007/BF01592332

A. Ben and . Richou, Etudes numériques et expérimentale du comportement héréditaire du couple hydrodynamique subit par une sphère placée axialement dans un cylindre en rotation non uniforme de Stokes, 1995.

J. F. Hale, D. A. Mc, D. , and J. R. Womersley, Velocity profiles of scillating arterial flow, with some calculations of viscous drag and the reynolds number, Journal of physiology, pp.629-640, 1955.

M. Ohmi and M. Iguchi, Critical Reynolds Number in an Oscillating Pipe Flow, Bulletin of JSME, vol.25, issue.200, pp.365-371, 1982.
DOI : 10.1299/jsme1958.25.165

J. Max, Méthodes et techniques de traitement du signal, et applications aux mesures physiques, 1996.

W. Soedel, Vibration of Plates and Shells, Journal of Vibration Acoustics Stress and Reliability in Design, vol.105, issue.3, 2005.
DOI : 10.1115/1.3269097

D. W. Scott, Multivariate density estimation. Theory, practice, and visualisation, 1992.