Fissuration des mortiers - CSTB
Fissuration des mortiers - CSTB
Fissuration des mortiers - CSTB
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BIBLIOGRAPHIE<br />
[32] E. G. Swenson, P. J. Sereda. Mechanism of the carbonatation shrinkage of lime and hydrated<br />
cement. J. appl. Chem., 18 :111–117, 1968.<br />
[33] J. J. Chen, J. J. Thomas, H. M. Jennings. Decalcification shrinkage of cement paste.<br />
Cement and Concrete Research, 36 :801–809, 2006.<br />
[34] F. Matsushita, Y. Aono, S. Shibata. Calcium Silicate structure and carbonation shrinkage<br />
of tobermorite-based material. Cement and Concrete Research, 34 :1251–1257, 2004.<br />
[35] F. J. Houst. Diffusion de gaz, carbonatation et retrait de la pâte de ciment durcie. Thèse<br />
de Doctorat, Ecole Polytechnique Fédérale, Lausanne, Suisse, 1992.<br />
[36] A. Khelidj, A. Loukili, G. Bastian. Etude expérimentale du couplage hydro-chimique dans<br />
les bétons en cours de maturation : incidence sur les retraits. Materials and Structures,<br />
31 :588–594, 1998.<br />
[37] J. M. Torrenti, F. Benboudjema. Mechanical threshold of cementitious materials at early<br />
age. Materials and Structures, 38 :299–304, 2005.<br />
[38] L. Granger. Comportement différé du béton dans les enceintes nucléaires : analyse et<br />
modélisation. Thèse de doctorat, Ecole Nationale <strong>des</strong> Ponts et Chaussées, Paris, France,<br />
1995.<br />
[39] G. De Schutter, L. Taerwe Degree of hydration-based <strong>des</strong>cription of mechanical properties<br />
of early age concrete. Materials and Structures, 29 :335–344, 1996.<br />
[40] V. Waller. Relations entre composition <strong>des</strong> bétons, exothermie en cours de prise et<br />
résistance en compression. Thèse de doctorat, Ecole Nationale <strong>des</strong> Ponts et Chaussées,<br />
Paris, France, 1999.<br />
[41] V. Waller, L. d’Aloïa, F. Cussigh, S. Lecrux. Using the maturity method in concrete cracking<br />
control at early ages. Cement and Concrete Composites, 26 :589–599, 2004.<br />
[42] G. De Schutter. Applicability of degree of hydration concept and maturity method for<br />
thermo-visco-elastic behaviour of early age concrete. Cement and Concrete Composites,<br />
26 :437–443, 2004.<br />
[43] T. Kanstad, T. A. Hammer, Ø. Bjøntegaard, E. J. Sellevold. Mechanical properties of<br />
young concrete : part II : Determination of model parameters and test program proposals.<br />
Materials and Structures, 36 :226–230, 2003.<br />
[44] F. Benboudjema. Modélisation <strong>des</strong> déformations différées du béton sous sollicitations<br />
biaxiales. Application aux enceintes de confinement de bâtiments réacteurs <strong>des</strong> centrales<br />
nucléaires. Thèse de doctorat, Université de Marne-la-Vallée, Marne-la-Vallée, France,<br />
2002.<br />
[45] Z. P. Baˇzant, A. B. Hauggaaed, S. Baweja, F. J. Ulm. Microprestress-solidification theory<br />
for concrete creep. I : Aging and drying effects. Journal of Engineering Mechanics, 123,<br />
11 :1188–1194, 1997.<br />
[46] F. J. Ulm, F. Le Maou, C. Boulay. Creep and shrinkage coupling : new review of some<br />
evidence. Revue Française de Génie Civil, 3 :21–37, 1999.<br />
[47] G. Pickett. The effect of change in moisture-content of the creep in concrete under a<br />
sustained load. ACI Journal, 13[4] :333–355, 1942.<br />
[48] F. Benboudjema, F. Meftah, A. Sellier, J. M. Torrenti, G. Heinfling. On the prediction of<br />
delayed stains for concrete subjected to drying and loading simultaneously. Dans : Creep,<br />
Shrinkage and Durability Mechanics of concrete and others Quasi-Brittle materials, édité<br />
par F. J. Ulm, Z. P. Baˇzant et F. H. Wittmann, Elsevier, Cambridge, 245–250, 2001.<br />
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