L. Jesser, Kolloide Chemische Reaktionen des Tonerdezementmörtels, Zement, vol.16, p.741, 1927.

R. F. Feldman and P. J. Sereda, Sorption of water on compacts of bottle-hydrated cement. I. The sorption and lengthchange isotherms, J Appl Chem, vol.14, issue.2, pp.87-93, 1964.

V. Baroghel-bouny, Water vapour sorption experiments on hardened cementitious materials: Part I: Essential tool for analysis of hygral behaviour and its relation to pore structure, Cem Concr Res, vol.37, issue.3, pp.414-437, 2007.

S. Brunauer, R. S. Mikhail, and E. E. Bodor, Some remarks about capillary condensation and pore structure analysis, 1967.

, J Colloid Interface Sci, vol.25, issue.3, pp.90041-90041

B. Libby and P. A. Monson, Adsorption/desorption hysteresis in inkbottle pores: a density functional theory and Monte Carlo simulation study, Langmuir, vol.20, issue.10, pp.4289-4294, 2004.

M. Thommes, B. Smarsly, M. Groenewolt, P. I. Ravikovitch, and A. V. Neimark, Adsorption hysteresis of nitrogen and argon in pore networks and characterization of novel microand mesoporous silicas, Langmuir, vol.22, issue.2, pp.756-764, 2006.

K. Morishige, H. Fujii, M. Uga, and D. Kinukawa, Capillary critical point of argon, nitrogen, oxygen, ethylene, and carbon dioxide in MCM-41, Langmuir, vol.13, issue.13, pp.3494-3498, 1997.

B. Coasne, A. Galarneau, R. J. Pellenq, D. Renzo, and F. , Adsorption, intrusion and freezing in porous silica: the view from the nanoscale, Chem Soc Rev, vol.42, pp.4141-4171, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00790061

B. Coasne, Multiscale adsorption and transport in hierarchical porous materials, New J Chem, vol.40, issue.5, pp.4078-4094, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02015077

M. Lépinay, L. Broussous, C. Licitra, F. Bertin, V. Rouessac et al., Predicting adsorption on bare and modified silica surfaces, J Phys Chem C, vol.119, issue.11, pp.6009-6017, 2015.

I. Maruyama, Y. Nishioka, G. Igarashi, and K. Matsui, Microstructural and bulk property changes in hardened cement paste during the first drying process, Cem Concr Res, vol.58, pp.20-34, 2014.

I. Maruyama, N. Sakamoto, K. Matsui, and G. Igarashi, Microstructural changes in white Portland cement paste under the first drying process evaluated by WAXS, SAXS, and USAXS, Cem Concr Res, vol.91, pp.24-32, 2016.

I. Maruyama, K. Beppu, R. Kurihara, and A. Furuta, Action mechanisms of shrinkage reducing admixture in hardened cement paste, J Adv Concr Technology, vol.14, issue.6, pp.311-323, 2016.

R. F. Feldman and P. J. Sereda, A model for hydrated Portland cement paste as deduced from sorption-length change and mechanical properties, Mat Constr, vol.1, issue.6, pp.509-520, 1968.

J. Zhang and G. W. Scherer, Comparison of methods for arresting hydration of cement, Cem Concr Res, vol.41, issue.10, pp.1024-1036, 2011.

E. Gallucci, X. Zhang, and K. L. Scrivener, Effect of temperature on the microstructure of calcium silicate hydrate (C-S-H), Cem Concr Res, vol.53, pp.185-195, 2013.

S. Bahafid, S. Ghabezloo, M. Duc, P. Faure, and J. Sulem, Effect of the hydration temperature on the microstructure of Class G cement: C-S-H composition and density, Cem Concr Res, vol.95, pp.270-281, 2017.

S. Bahafid, S. Ghabezloo, P. Faure, M. Duc, and J. Sulem, Effect of the hydration temperature on the pore structure of cement paste: experimental investigation and micromechanical modelling, Cem Concr Res, vol.111, pp.1-14, 2018.

A. M. Gajewicz, E. Gartner, K. Kang, P. J. Mcdonald, and V. Yermakou, A 1H NMR relaxometry investigation of gel-pore drying shrinkage in cement pastes, Cem Concr Res, vol.86, pp.12-19, 2016.

M. Wyrzykowski, P. J. Mcdonald, K. L. Scrivener, and P. Lura, Water redistribution within the microstructure of cementitious materials due to temperature changes studied with 1H NMR, J Phys Chem C, vol.121, issue.50, pp.27950-27962, 2017.

M. Thommes, S. Mitchell, and J. Pérez-ramírez, Surface and pore structure assessment of hierarchical MFI zeolites by advanced water and argon sorption studies, J Phys Chem C, vol.116, issue.35, pp.18816-18823, 2012.

A. Aili, M. Vandamme, J. Torrenti, and B. Masson, Is long-term autogenous shrinkage a creep phenomenon induced by capillary effects due to self-desiccation?, Cem Concr Res, vol.108, pp.186-200, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01787521

R. J. Speedy, Limiting forms of the thermodynamic divergences at the conjectured stability limits in superheated and supercooled water, J Phys Chem, vol.86, issue.15, pp.3002-3005, 1982.

M. Yamada, S. Mossa, H. E. Stanley, and F. Sciortino, Interplay between time-temperature transformation and the liquid-liquid phase transition in water, Phys Rev Lett, vol.88, p.195701, 2002.

E. Herbert, S. Balibar, and F. Caupin, Cavitation pressure in water, Phys Rev E, vol.74, issue.4, p.41603, 2006.

F. Caupin, Liquid-vapor interface, cavitation, and the phase diagram of water, Phys Rev E, vol.71, issue.5, p.51605, 2005.

F. Caupin and E. Herbert, Cavitation in water: a review, C R Phys, vol.7, issue.9, pp.1000-1017, 2006.

R. Badmann, N. Stockhausen, and M. J. Setzer, The statistical thickness and the chemical potential of adsorbed water films, J Colloid Interface Sci, vol.82, issue.2, pp.90395-90402, 1981.

M. Daimon, S. A. Abo-el-enein, G. Rosara, S. Goto, and R. Kondo, Pore structure of calcium silicate hydrate in hydrated tricalcium silicate, J Am Ceram Soc, vol.60, issue.3-4, pp.110-114, 1977.

T. C. Powers and T. L. Brownyard, Studies of the physical properties of hardened portland cement paste part 1. A review of methods that have been used for studying the physical properties of hardened cement paste, J Am Concr Inst, vol.18, issue.2, pp.101-132, 1946.

R. F. Feldman, Application of the helium inflow technique for measuring surface area and hydraulic radius of hydrated portland cement, Cem Concr Res, vol.10, issue.5, pp.657-664, 1980.

S. Brunauer, R. S. Mikhail, and E. E. Bodor, Pore structure analysis without a pore shape model, J Colloid Interface Sci, vol.24, issue.4, pp.451-463, 1967.

L. Barbi?, I. Kocuvan, R. Blinc, G. Lahajnar, P. Merljak et al., The determination of surface development in cement pastes by nuclear magnetic resonance, J Am Ceram Soc, vol.65, issue.1, pp.25-31, 1982.

R. Blinc, G. Lahajnar, S. Pintar, and M. M. , NMR study of the time evolution of the fractal geometry of cement gels, Phys Rev B, vol.38, issue.4, pp.2873-2875, 1988.

J. P. Korb, NMR and nuclear spin relaxation of cement and concrete materials, Curr Opin Colloid Interface Sci, vol.14, issue.3, pp.192-202, 2009.

P. J. Mcdonald, V. Rodin, and A. Valori, Characterisation of intra-and inter-C-S-H gel pore water in white cement based on an analysis of NMR signal amplitudes as a function of water content, Cem Concr Res, vol.40, issue.12, pp.1656-1663, 2010.

A. Valori, V. Rodin, and P. J. Mcdonald, On the interpretation of 1H 2-dimensional NMR relaxation exchange spectra in cements: is there exchange between pores with two characteristic sizes or Fe 3? concentrations?, Cem Concr Res, vol.40, issue.9, pp.1375-1377, 2010.

A. Muller, K. L. Scrivener, A. M. Gajewicz, and P. J. Mcdonald, Densification of C-S-H Measured by 1H NMR relaxometry, J Phys Chem C, vol.117, issue.1, pp.403-412, 2013.

A. Muller, K. L. Scrivener, A. M. Gajewicz, and P. J. Mcdonald, Use of bench-top NMR to measure the density, composition and desorption isotherm of C-S-H in cement paste, Microporous Mesoporous Mater, vol.178, pp.99-103, 2013.

A. Valori, P. J. Mcdonald, and K. L. Scrivener, The morphology of C-S-H: lessons from 1H nuclear magnetic resonance relaxometry, Cem Concr Res, vol.49, pp.65-81, 2013.

P. J. Mcdonald, J. P. Korb, J. Mitchell, and L. Monteilhet, Surface relaxation and chemical exchange in hydrating cement pastes: a two-dimensional NMR relaxation study, Phys Rev E, vol.72, issue.1, p.11409, 2005.

W. M. Haynes, CRC handbook of chemistry and physics, 2014.

T. C. Powers and T. L. Brownyard, Studies of the physical properties of hardened portland cement paste, Part 1-9, J Am Concr Inst, vol.43, pp.972-990

N. F. Bunkin, O. A. Kiseleva, A. V. Lobeyev, T. G. Movchan, B. W. Ninham et al., Effect of salts and dissolved gas on optical cavitation near hydrophobic and hydrophilic surfaces, Langmuir, vol.13, issue.11, pp.3024-3028, 1997.

K. Morishige and M. Ito, Capillary condensation of nitrogen in MCM-41 and SBA-15, J Chem Phys, vol.117, issue.17, pp.8036-8041, 2002.

C. H. Amberg and R. Mcintosh, A study of adsorption hysteresis by means of length changes of a rod of porous glass, Can J Chem, vol.30, issue.12, pp.1012-1032, 1952.

R. S. Haines and R. Intosh, Length changes of activated carbon rods caused by adsorption of vapors, J Chem Phys, vol.15, issue.1, pp.28-38, 1947.

I. Maruyama, E. Gartner, K. Beppu, and R. Kurihara, Role of alcohol-ethylene oxide polymers on the reduction of shrinkage of cement paste, Cem Concr Res, vol.111, pp.157-168, 2018.