Fictitious degree of hydration method for the basic creep of early age concrete
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Acker, P., Abiar, G. and Malier, Y., ‘Modèle du comportement différé du béton prenant en compte l'hygrométrie locale’, in ‘Creep and Shrinkage of Concrete’ (ed. Bažant), Evanston, 1986, 815–824.
Acker, P., Lau, M. Y. and Collet, F., ‘Comportement différé du béton: validation expérimentale de la méthode du temps équivalent’,Bulletin liaison Lab. Ponts et Chaussées 163 (1989) 31–39.
Acker, P. and Eymard, R., ‘Thermal and hygral effects in concrete structures: how to account for creep’, in ‘Behaviour of concrete elements under thermal and hygral gradients’ (ed. Schwesinger), Weimar, 1992, 191–197.
Bažant, Z. P. and Carol, I., ‘Preliminary guidelines and recommendations for characterizing creep and shrinkage in structural design codes’, in ‘Creep and Shrinkage of concrete’ (eds. Bažant and Carol), E & FN Spon, London, 1993, 805–829.
Bažant, Z. P. and Kim, J.-K., ‘Improved prediction model for time-dependent deformations of concrete: Part 2— Basic creep’,Mater. Struct. 24 (1991) 409–421.
Bournazel, J. P., ‘Contribution à l'étude du caractère thermomécanique de la maturation du béton’, Thèse de doctorat de l'Université Paris 6, 1992.
Bournazel, J. P. and Martineau, J. P., ‘A laboratory test to analyse creep under tension of young concrete’, in ‘Creep and Shrinkage of Concrete’ (eds. Bažant and Carol), E & FN Spon, London, 1993, 57–62.
De Borst, R., Van Den Boogaard, A. H., Sluys, L. J. and Van Den Bogert, P. A. J., ‘Computational issues in time dependent deformation and fracture of concrete’, in ‘Creep and Shrinkage of Concrete’ (Bažant and Carol), E & FN Spon, London, 1993, 309–325.
De Schutter, G. and Taerwe, L., ‘General hydration model for portland cement and blast furnace slag cement’,Cem. Con. Res. 25 (3) (1995) 593–604.
De Schutter, G. and Taerwe, L., ‘Specific heat and thermal diffusivity of hardening concrete’,Mag. Con. Res. 47 (172) (1995) 203–208.
De Schutter, G. and Taerwe, L., ‘Degree of hydration based description of mechanical properties of early age concrete’,Mater. Struct. 29 (1996) 335–344.
De Schutter, G. and Taerwe, L., ‘Fracture energy of concrete at early ages’,Mater. Struct. 30 (1997) 67–71.
De Schutter, G. and Taerwe, L., ‘Towards a more fundamental non-linear basic creep model for early age concrete’,Mag. Con. Res. 49 (180) (1997) 195–200.
Ghosh, R. S., ‘Creep of portland cement paste at early ages’,Mater. Struct. 5 (26) (1972) 93–97.
Ghosh, R. S., ‘A hypothesis on mechanism of maturing creep of concrete’,Mater. Struct. 6 (31) (1973) 23–27.
Ghosh, R. S. and Timusk, J., ‘Creep of Portland cement paste at sub-zero temperature’,Mater. Struct. 5 (21) (1971) 171–176.
Khalil, S. M. and Ward, M. A., ‘Effect of degree of hydration upon creep of mortars containing calcium lignosulphonate’,Mag. Con. Res. 29 (98) (1977) 19–25.
Lambotte, H., ‘Le fluage du béton en torsion’,RILEM Bulletin 17 (Dec. 1962) 3–12.
Lokhorst, S. and Van Breugel, K., ‘From microstructural development towards prediction of macro stresses in hardening concrete’, in ‘Thermal Cracking in Concrete at early ages’ (ed. Springenschmid), E & FN Spon, London, 1994, 71–78.
Meyers, B. L. and Slate, F. O., ‘Creep and creep recovery of plain concrete as influenced by moisture conditions and associated variables’,Mag. Con. Res. 22 (70) (1970) 37–41.
Mazars, J. and Bournazel, J.-P., ‘Global modelling for creep, shrinkage and damage processes of maturing concrete’, in ‘Creep and Shrinkage of Concrete’ (eds. Bažant and Carol), E & FN Spon, London, 1993, 369–380.
Neville, A. M., Dilger, W. H. and Brooks, J. J., ‘Creep of plain and structural concrete’, Construction Press, London and New York, 1983.
Ross, A. D., ‘A note on the maturity and creep of concrete’,RILEM Bulletin (March 1959) 55–57.
Rossi, P., Godaert, N., Robert, J. L., Gervais, J. P. and Bruhat, D., ‘Investigation of the basic creep of concrete by acoustic emission’, in ‘Creep and Shrinkage of Concrete’ (eds. Bažant and Carol), E & FN Spon, London, 1993, 33–38.
Rostasy, F. S., Gutsch, A. and Laube, M., ‘Creep and relaxation of concrete at early ages—Experiments and mathematical modeling’, in ‘Creep and Shrinkage of Concrete’ (eds. Bažant and Carol), E & FN Spon, London, 1993, 453–458.
Timusk, J. and Ghosh, R. S., ‘Maturing creep of portland cement paste’,ACI Journal (Dec. 1971) 959–963.
Tschoegl, N. W., ‘The phenomenological theory of linear viscoelastic behaviour’, Springer-Verlag, Berlin, 1989.
Van Breugel, K., ‘Relaxation of young concrete’, Report 5-80-08, Delft University of Technology, 1980.
Van Breugel, K., ‘Development of temperature and properties of concrete as a function of the degree of hydration’, in ‘RILEM Int. Conf. on Concrete of Early Ages’, Editions Anciens ENPC, Volume I, 1982, 179–185.
Yue, L. L., ‘Creep recovery of plain concrete under uniaxial compression’, Dissertation, Magnel Laboratory for Concrete Research, University of Ghent, 1992.
Yue, L. L. and Taerwe, L., ‘Creep recovery of plain concrete and its mathematical modelling’,Mag. Con. Res. 44 (161) (1992) 281–290.