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Microstructure of Steam Cured Concretes Deteriorated by Alkali-Silica Reaction

Published online by Cambridge University Press:  21 February 2011

Jean Pierre Bournazel  and
Micheline Moranville-Regourd
Jean Pierre Bournazel
Affiliation:
Laboratoire de Mécanique et Technologie, ENS Cachan / CNRS /Université Paris VI, 61 avenue du Président Wilson, 94 235 Cachan Cedex, France
Micheline Moranville-Regourd
Affiliation:
Laboratoire de Mécanique et Technologie, ENS Cachan / CNRS /Université Paris VI, 61 avenue du Président Wilson, 94 235 Cachan Cedex, France
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Abstract

In order to know the main cause of the cracking of concrete ties we tried to reproduce the deterioration process in the laboratory, using the same thermal cycle and the same materials. Model concretes were first steam cured then examined for ASR using the CSA-A-23-2-14A accelerated test. Linear expansion of concrete prisms were measured and fracture surfaces of concrete after treatment were observed under scanning electron microscope. They showed ASR gels and secondary ettringite. A simultaneous thermal mechanical computation gave the global microcracking of concrete induced by steam curing. A second computation showed the accelerating role of temperature on the local development of ASR products.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 370: Symposia Va/Vb – Microstructure of Cement-Based Systems/Bonding and Interfaces in Cement... , 1994 , 57
Copyright
Copyright © Materials Research Society 1995

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References

[1] Idorn, G.M., Johassen, V. and Thaulow, N., in Material Science of Concrete II, edited by Skalny, J. (Am. Ceram. Soc), pp. 71104, (1992)Google Scholar
[2] Heinz, D. and Ludwig, U., in K. and B. Matter Conference on Durability, ACI, SP 100, Vol 2, pp 20592071 (1987)Google Scholar
[3] Jones, T.W. and Poole, A.B., in 7th Int Alkali Conf., publ. Noyes, pp 446450 (1986)Google Scholar
[4] Oberholster, R.E., Maree, H. and Brandt, J.H.B, in 9th Int. Conf AAR, London, pp 739749, (1992)Google Scholar
[5] Shayan, A. and Quick, G.W., Adv. Cen. Res 4, 16, pp 149157 (1992)Google Scholar
[6] Diamond, S. and Ong, S, Ceramic transactions Vol 40, Cement Technology, pp 7990 (1993)Google Scholar
[7] Johansen, V., Thaulow, N. and Skalny, J., Adv. Cem. Res. 5, 17 pp 2329 (1993)Google Scholar
[8] Ranc, R., Cariou, B. and Sorrentino, D., Ministry of Transportation, Canada. Engineering Material Report 92, March 1990.Google Scholar
[9] Bournazel, J.P. and Moranville, M. Regourd, ACI, SP 144, pp 233249, (1994)Google Scholar
[10] Sellier, A., Bournazel, J.P. and Mebarki, A., to appear in Mat. and Struct, RILEMGoogle Scholar
[11] CESAR - LCPC, Manuel d'utilisation, LCPC, (1987)Google Scholar
[13] Bournazel, J.P., Capra, B., Mebarki, A. and Sellier, A., Proc. of EURO-C, ed Bicanic, , Borst, De and Mang, , pp 491499 (1994)Google Scholar
[14] Ong, S. and Diamond, S., Cem Con Res, Vol 24, 7, pp 13051310 (1994)Google Scholar
[15] Shayan, A. and Quick, G.W., ACI Materials Journal, V 89, 4, pp 348361 (1992)Google Scholar
[16] Regourd, M., Hornain, H. and Poitevin, P., in Vth int. Conf. AAR, Cape Town, Paper 252/35 (1981)Google Scholar
[17] Soers, E. and Meyskens, M., Annales des Travaux Publics de Belgique, 4 pp 339343 (1989)Google Scholar
[18] Scrivener, I. and Taylor, H.F.W., adv. Cem. Res. 5, n°20, pp 139146, (1993)Google Scholar
[19] Taylor, H.F, Ceramic transactions, vol 40, Cement Technology, pp 6178 (1993)Google Scholar
[20] Taylor, H.F., in Adv in Cem and Concr, ed Grutzeck, M.W. and Sarkar, S.L, ASCE, pp 122131 (1994)Google Scholar
[21] Mehta, P.K., ACI, SP 144, pp 130 (1994)Google Scholar