J. H. Aardt and S. Visser, Influence of alkali on the sulphate resistance of ordinary portland cement mortars, Cement and Concrete Research, vol.15, issue.3, pp.485-494, 1985.
DOI : 10.1016/0008-8846(85)90122-X

F. Adenot, Durabilité du béton : caractérisation et modélisation des processus physiques et chimiques de dégradation du ciment, Thèse doctorat présentée à l'Université d'Orléans, 1992.

S. J. Ahmed and H. F. Taylor, Cristal Structures of the Lamellar Calcium Alumínate Hydrates, Nature, issue.215, p.622, 1967.

A. Bentur and M. Et-ish-shalom, Properties of type K expansive cement of pure components-part 2: proposed mechanism of ettringite formation and expansion in unrestrained paste of pure expansive component, CCR, vol.4, issue.5, pp.709-721, 1974.

A. S. Berger, On metastable equilibrium of calcium hydroaluminates in solutions of hydroxides of alkali metals, pp.6-10, 1974.

P. W. Brown, The Implications of Phase Equilibria on Hydration in the Tricalcium Silicate-Water and the Tricalcium Aluminate-Gypsum-Water Systems, pp.8-231, 1986.

P. W. Brown and J. V. Et-bothe, The stability of ettringite, Advanced in Cement Research, p.47, 1993.
DOI : 10.1680/adcr.1993.5.18.47

P. W. Brown and D. Shi, A model for the variations in solution chemistry during tricalcium silicate hydration, Advanced in Cement Research, p.17, 1992.
DOI : 10.1680/adcr.1991.4.1.17

M. Buil, Modélisation de la lixiviation de la chaux d'une pâte de ciment CPA : Réflextion sur les approches possibles et présentation d'une modélisation simplifiée, p.0, 1989.

C. Sgn, Influence of sulfate on the durability of concrete barriers, 1991.

S. Chatterji, Mechanisms of sulphate expansion of hardened cement pastes, Proc. 5th ISCC (Tokyo), pp.336-341, 1969.

S. Chatterji, Mechanisms of sulfate expansion a reappraisal of literature, pp.7-586, 1980.

S. Chatterji, Mechanisms of sulfate expansion", Seminary on calcium aluminates, pp.325-333, 1982.

S. Chatterji and J. W. Jeffery, A new hypothesis of sulphate expansion, Magazine of Concrete Research, pp.84-86, 1963.
DOI : 10.1680/macr.1963.15.44.83

S. Chen and P. K. Mehta, Zeta potential and surface area measurements on ettringite, Cement and Concrete Research, vol.12, issue.2, pp.257-259, 1982.
DOI : 10.1016/0008-8846(82)90012-6

M. D. Cohen, Theories of expansion in sulfoaluminate - type expansive cements: Schools of thought, Cement and Concrete Research, vol.13, issue.6, pp.809-818, 1983.
DOI : 10.1016/0008-8846(83)90082-0

M. Collepardi, Tricalcium aluminate hydration in the presence of lime, gypsum or sodium sulfate, Cement and Concrete Research, vol.8, issue.5, pp.571-580, 1978.
DOI : 10.1016/0008-8846(78)90040-6

L. E. Copeland and D. L. Et-kantro, Kinetics of the Hydration of Portland Cement, Proc. 4th ISCC (Washington), pp.443-453, 1960.

B. Cottin, Hydratation et expansion des ciments, Annales de Chimie, vol.4, pp.139-144, 1979.

B. Cottin, Hydratation et expansion des ciments, Verres et ciments Ann. Chim. Fr, vol.4, pp.139-144, 1979.

J. Crank, The Mathematics of Diffusion, second edition, 1979.

D. 'ans, J. Et-eick, and H. , Das System CaO, p.302, 1953.

D. Damidot, Sulphate attack on concrete: limits of the AFt stability domain, Cement and Concrete Research, vol.22, issue.2-3, p.229, 1990.
DOI : 10.1016/0008-8846(92)90060-9

M. Deng and M. Et-tang, Formation and expansion of ettringite crystals, CCR, vol.24, pp.119-126, 1994.

L. Divet, Evolution de la composition des Ciments Portland Artificiels de, 1964.

W. Dosch and B. Et-zur-strassen, Ein alkalihaltiges calciumaluminatsulfathydrat (Natrium-Monosulfat)", Zement-Kalk-Gips, pp.392-401, 1967.

R. Dron, Mécanisme de la prise du laitier granulé sous activation alcaline, 1974.

R. Dron and I. A. Voinovitch, L'activation hydraulique des laitiers, pouzzoîaniques et cendres volantes, Le Béton Hydraulique, p.237, 1982.

R. Dron and F. Et-brivot, Contribution à l'étude du gonflement ettringitique, pp.8-115, 1986.

R. Dron and F. Et-brivot, Contribution à l'étude du gonflement ettringite, Rio), vol.4, issue.2, pp.8-115, 1986.

R. Dron and F. Et-brivot, Le gonflement ettringitique, Bull, liaison labo. P. et Ck, issue.161, pp.25-32, 1989.

W. Eitel, Recent Investigations of the System Lime-Alumina-Calcium Sulfate-Water and its Importance in Building Research Problems, ACI, vol.28, p.679, 1957.

K. Fujii and W. Et-kondo, Heterogeneous Equilibium of Calcium Silicate Hydrate in Water at 30°C, J. Chem. Soc. Dalton, p.645, 1981.

. Ghorab, On the stability of calcium alumínate sulphate hydrtaes in pure systems and in cements, pp.7-496, 1980.

D. W. Hadley, W. Par-kurdowski, F. Et-sorrentino, and . Dans, Structure and Performance of cements" édité par Barnes P, adapté, p.513, 1964.

W. C. Hansen, Studies relating to the mechanism by which the alkali-aggregate reaction produces expansion in concrete, J. of ACI, vol.15, 1944.

W. C. Hansen, Disscusion of the paper MEHTA 1976, CCR, vol.6, issue.4, pp.595-596, 1976.

W. C. Hansen, Disscusion of the paper Mehta, CCR, vol.6, issue.4, pp.595-596, 1976.

I. Shalom, M. Et-bentur, and A. , Properties of type K expansive cements of pure components, Parti et 3, CCR, pp.519-532, 1974.

M. J. Jaspers, Contribution à l'étude expérimentale de la résistance chimique des ciments mesurée selon la méthode d'immersion de microprismes en solution agressives, p.704, 1977.

L. Jawed and J. Skalny, Alkalies in cement: A review, Cement and Concrete Research, vol.8, issue.1, p.37, 1978.
DOI : 10.1016/0008-8846(78)90056-X

F. E. Jones, O, Alumina Gel, and Solid Solution., The Journal of Physical Chemistry, vol.48, issue.6, p.311, 1944.
DOI : 10.1021/j150438a001

F. E. Jones, The quinary system CaO-Al 2 03-CaS0 4 -K20-H20 (1% KOH) at 25°C, Journal of Physic and Chemistry, vol.44, p.379, 1944.

F. E. Jones, The quinary system CaO-A^C^-CaSCV^O-f^O (1% NaOH) at 25°C, Journal of Physic and Chemistry, vol.44, p.356, 1944.

G. L. Kalousek and E. J. Benton, Mechanism of sea water attack on cement pastes, ACI, vol.67, issue.2, pp.187-192, 1970.

A. Klein and P. K. Et-mehta, Nature of hydration pruducts in the system 4CaO, 1968.

K. G. Krassilnikov, L. V. Nikitina, and N. N. Et-skoblinskaya, Physico-chemistry of cement expansion processes, pp.6-11, 1974.

H. Lafunia, Théorie de l'expansion des liants hydrauliques, pp.441-444, 1929.

L. Bescop and P. , Minéralogie d'enrobés de concentrats sulfatés cimentés, 1991.

A. F. Lea, The Chemistry of Cement and Concrete, 3ème édition, 1970.

P. Longuet, L. Burglen, and A. Et-zelwer, La phase liquide du ciment hydraté", publication technique Cerilch No219, adapté par Regourd M, p.65, 1974.

B. Mather, Disscusion of the paper MEHTA 1973, CCR, vol.3, issue.5, pp.653-654, 1973.

B. Mather, Disscusion of the paper MEHTA 1973, CCR, vol.3, issue.5, pp.651-654, 1973.

K. Mather, Factors affecting sulfate resistance of mortars, pp.7-575, 1980.

M. Matousek and Z. Et-saaman, Contribution to the hydration of expansive cement on the basis of metakaolinite, Cement and Concrete Research, vol.4, issue.1, pp.113-122, 1974.
DOI : 10.1016/0008-8846(74)90070-2

P. K. Mehta, Morphology of Calcium Sulfoaluminate Hydrates, Journal of the American Ceramic Society, vol.48, issue.8, pp.521-522, 1969.
DOI : 10.1111/j.1151-2916.1969.tb09215.x

P. K. Mehta, Mechanism of expansion associated with ettringite formation, Cement and Concrete Research, vol.3, issue.1, pp.1-6, 1973.
DOI : 10.1016/0008-8846(73)90056-2

P. K. Mehta, Durability of concrete in sea water. A review, International Conference on Performance of Concrete in Marine Environnement, 1980.

P. K. Mehta, Mécanism of sulfate attack on portland cement concrete -another look, CCR, vol.13, pp.401-406, 1983.

P. K. Mehta, Mechanism of sulfate attack on portland cement concrete ??? Another look, Cement and Concrete Research, vol.13, issue.3, pp.401-406, 1983.
DOI : 10.1016/0008-8846(83)90040-6

P. K. Mehta, Concrete -Structure, Properties and Materials, 1986.

P. K. Mehta, Properties of alite cements, Cement and Concrete Research, vol.9, issue.4, pp.439-450, 1979.
DOI : 10.1016/0008-8846(79)90041-3

P. K. Mehta and F. Hu, Further Evidence for Expansion of Ettringite by Water Adsorption, Journal of the American Ceramic Society, vol.61, issue.3-4, pp.179-181, 1978.
DOI : 10.1016/0008-8846(75)90093-9

P. K. Mehta and S. Wang, Mechanism of expansion associated witn ettringite formation, CCR, vol.3, pp.1-6, 1973.

P. K. Mehta and S. Wang, Expansion of ettringite by water adsorption, Cement and Concrete Research, vol.12, issue.1, pp.121-122, 1982.
DOI : 10.1016/0008-8846(82)90107-7

J. Millet, Sur le dosage de î'ettringite dans les pâtes de ciment et les mortiers, Bull, liaisonLabo. P. et Ck, issue.109, pp.91-95, 1980.

V. Moldoman and N. Et-butucescu, Sur le mécanisme de l'expansion des ciments expansifs, pp.7-8, 1980.

A. E. Moore and H. F. Taylor, Crystal structure of ettringite, Acta cryst B26, p.386, 1970.

B. Mortureux, H. Hornain, and M. Et-regourd, Rôle de C3A dans l'attaque des ciments par les eaux sulfatées, pp.7-570, 1980.

A. Negro and A. Bachiorrini, Expansion associated with ettringite formation at different temperatures, Cement and Concrete Research, vol.12, issue.6, pp.6-677, 1982.
DOI : 10.1016/0008-8846(82)90030-8

A. M. Neville, -Properties of Concrete. Pitman, 1963, adapté par Folliot A. et Buil M. dans "La structuration progressive de la pierre de ciment, p.223, 1982.
URL : https://hal.archives-ouvertes.fr/hal-01186416

A. Nicol, Aperçu bibliographique sur les agents et les causes de la corrosion du béton, Revue des Matériaux de Construction, p.415, 1950.

L. V. Nikitina, La nature physico-chimique des auto-contraintes des ciments expansifs, pp.7-39, 1980.

K. Ogawa and D. M. Et-roy, C4A3S hydration ettringite expansion and its expansion mechanism, CCR, vol.11, issue.12, pp.741-750, 1981.
DOI : 10.1016/0008-8846(81)90032-6

A. M. Paillère, Influence du ciment sur la dégradation du béton en milieu marin, Bull, liaison Labo. P. et Ch, issue.135, 1985.

. I. Ponomarev, Réglage de la formation de la structure et des propriétés du ciment, pp.7-147, 1980.

T. C. Powers, Structure and physical properties of Portland cement paste", II. Am. Ceramic Society 41, pp.1-6, 1958.

M. Regoud, H. Hornan, and B. Mortureux, Microstructure des ciments de laitier, Revue des Matériaux de Construction, pp.83-86, 1976.

M. Regourd, L'hydratation du ciment Portland, p.193, 1982.

M. Regourd, La résistance du béton aux altérations physiques et chimiques, Le Béton Hydraulique, p.513, 1982.

M. Regourd, Microstructures et propriétés des ciments, mortiers et bétons, 1982.

M. Regourd, Résistance du béton aux attaques physico-chimiques, pp.7-104, 1980.

M. Regourd, H. Hornain, and B. Et-mortureux, Microstructure des ciments de laitier, Revue des Matériaux de Construction, pp.83-86, 1976.

M. Regourd, B. Mortureux, E. Gautier, H. Hornain, and J. Et-volant, Caractérisation et activiation thermique des ciments au laitier, pp.7-105, 1980.

M. Regourd, J. H. Thomassin, P. Baillif, and J. C. Et-touray, Study of the early hydration of Ca3Si(>5 by X-ray photoelectron spectrometry, CCR, vol.10, p.223, 1980.

E. Revertégat, C. Riebet, and P. Gegout, Effet of pH on the durability of cement pastes, CCR, vol.22, pp.259-272, 1992.

P. Seligmann and N. R. Et-greening, Phase Equilibria of Cement -Water, pp.79-200, 1968.

J. Skalny and N. Ef-maycock, Scanning Electron Microscopy of Industrial Cement Clinkers, Journal of the American Ceramic Society, vol.52, issue.4, p.253, 1974.
DOI : 10.1016/0008-8846(72)90115-9

G. A. Stein, Influence de Na20 sur l'hydratation du C 3 A, partie 1 et 2, p.256, 1977.

E. G. Swenson, J. E. Et-giliot, W. Transp-par-kurdowski, F. Et-sorrentino, and . Dans, Structure and Performance of cements" édité par Barnes P, adapté, p.513, 1964.

H. F. Taylor, Cristal structures of some double hydroxide minerals, MineralogicalMagazine, p.377, 1973.

H. F. Taylor, Cement Chemistry, 1990.
DOI : 10.1680/cc.25929

H. F. Taylor, P. Barret, P. W. Brown, D. D. Double, G. Frohnsdorft et al., The hydration of tricalcium silicate, Mat??riaux et Constructions, vol.60, issue.No. 5/6, p.457, 1984.
DOI : 10.1007/BF02473986

S. Wang, S. Ji, Y. Liu, and K. Hu, Effet of alkali on the expansive properties of sulfoaluminate cement pastes, SthlCCC (Rio), vol.IV, pp.301-305, 1986.

S. J. Way and A. Shayan, Early hydration of portland cement in water and dosium hydroxide solutions: composition of solutions and nature of solid phases, CCR, vol.19, p.759, 1989.

P. Xie and J. J. Beaudoin, Mechanism of sulphate expansion -I. Thermodynamic principle of crystallization pressure. II. Validation of Thermodynamic Theory, CCR, vol.22, pp.631-640, 1992.

A. Zelwer and M. Buil, Extraction de la phase liquide des ciments durcis, Bull. Liaison Labo. P. et Ck, vol.163, p.93, 1989.

J. F. Zemaitis, D. M. Clark, M. Rafal, and N. Et-scrivner, Handbook of aqueous electrolyte thermodynamic, The Américain Institute of Chemical Engineers, 1986.