Effect of the hydration temperature on mechanical resistance of Portland cement mortar and paste
1
UCB, UMR 5613 CNRS-Universite de Bourgogne, Faculté des Sciences Mirande, France
Publication date: 2007-03-01
Cement Wapno Beton 12(2) 68-75 (2007)
ACKNOWLEDGEMENTS
The authors would like to thank the French Technical Association of Cement Industry (ATILH) and the Region Bourgogne for their financial support.
REFERENCES (17)
1.
J.-K. Kim, Y.-H. Moon, and S.-H. Eo, Compressive strength development of concrete with different curing time and temperature. Cement and Concrete Research, 28(12): p. 1761-1773, (1998).
2.
J. I. Escalante-Garcia, and J. H. Sharp, Effect of temperature on the hydration of the main clinker phases in Portland cements: part i, neat cements. Cement and Concrete Research, 28(9): p. 1245-1257, (1998).
3.
J.-K. Kim, S. H. Han, and Y. C. Song, Effect of temperature and aging on the mechanical properties of concrete: Part I. Experimental results. Cement and Concrete Research, 32(7): p. 1087-1094, (2002).
4.
K. O. Kjellsen, R. J. D., Later-age strength prediction by a modifi ed maturity model. ACI Materials Journal, 90: p. 220 - 227, (1993).
5.
X. Zhang, E. G., K. Scrivener. Effect of temperature on the microstructural and mechanical properties of concrete. In 25th Cement and Concrete Science, Royal Holloway 2005.
6.
K. O. Kjellsen, and R. J. Detwiler, Reaction kinetics of Portland cement mortars hydrated at different temperatures. Cement and Concrete Research, 22(1): p. 112-120, (1992).
7.
J. I. Escalante-Garcia, Nonevaporable water from neat OPC and replacement materials in composite cements hydrated at different temperatures. Cement and Concrete Research, 2003. 33(11): p. 1883-1888, (2003).
8.
K. Asaga, M. I., S. Takahashi, K Konishi, T. Tsurami, M. Daimon. in 9th Int. Conf. Chem. Cem. New Delhi 1992.
9.
K. O. Kjellsen, R. J. Detwiler, and O. E. Gjorv, Development of microstructures in plain cement pastes hydrated at different temperatures. Cement and Concrete Research, 21(1): p. 179-189, (1991).
10.
A. Benthur, Effect of curing temperature on the pore structure of tricalcium silicate pastes. Sci. 74 Colloid Interface Sci, 74: p. 549 - 560, (1980).
11.
K. O. Kjellsen, R. J. Detwiler, and O. E. Gjorv, Pore structure of plain cement pastes hydrated at different temperatures. Cement and Concrete Research, 20(6): p. 927-933 (1990).
12.
K. O. Kjellsen, R. J. Detwiler, and O. E. Gjorv, Backscattered electron imaging of cement pastes hydrated at different temperatures. Cement and Concrete Research, 20(2): p. 308-311, (1990).
13.
L. J. Parrott, et al., Monitoring Portland cement hydration: Comparison of methods. Cement and Concrete Research, 20(6): p. 919-926, (1990).
14.
S. Gauffi net, E. Finot, E. Lesniewska, and A. Nonat, Observation directe de la croissance d’hydrosilicate de calcium sur des surfaces d’alite et de silice par microscopie ŕ force atomique. Compte Rendu de l’Académie des Sciences de Paris, 327(4): p. 231-236, (1998).
15.
S. G. A. Nonat, Hydrated layer formation on tricalcium and dicalcium silicate surface: experimental study and numerical simulations. Langmuir, 17: p. 8132 - 9138, (2001).
16.
M. Zajac, et al. Infl uence of temperature on the hydration of tricalcium silicate. In Cement and Concrete Science, Sheffi eld Hallam 2006.
17.
L. Nachbaur, et al., Dynamic mode rheology of cement and tricalcium silicate pastes from mixing to setting. Cement and Concrete Research, 31(2): p. 183-192, (2001).
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