Investigations of reinforcement corrosion. 1. The pore electrolyte phase in chloride-contaminated concrete

C. L. Page; P. Lambert; P. R. W. Vassie

doi:10.1007/bf02472078

journal article Jul 01, 1991

Investigations of reinforcement corrosion. 1. The pore electrolyte phase in chloride-contaminated concrete

C. L. Page P. Lambert

P. R. W. Vassie

Matériaux et Constructions Vol. 24 No. 4 pp. 243-252 · Springer Science and Business Media LLC

View at Publisher Save 10.1007/bf02472078

Topics

No keywords indexed for this article. Browse by subject →

References

26

[1]

Page, C. L. and Treadaway, K. W. J., ‘Aspects of the electrochemistry of steel in concrete’,Nature 297 (5862) (1982) 109–115. 10.1038/297109a0

[2]

Hausmann, D. A., ‘Steel corrosion in concrete’,Mater. Protection 6 (November 1967) 19–23.

[3]

Gouda, V. K., ‘Corrosion and corrosion inhibition of reinforcing steel: 1. Immersed in alkaline solution’,Br. Corrosion J. 5 (1970) 198–203. 10.1179/000705970798324450

[4]

Page, C. L. and Lambert, P., ‘Analytical and electrochemical investigations of reinforcement corrosion’, TRRL Contractor Report CR 30 (Transport and Road Research Laboratory, 1986).

[5]

British Standards Institution, ‘The testing of hardened concrete’, BS 1881 (1983).

[6]

Longuet, P., Burglen, L. and Zelwer, A., ‘La phase liquide du ciment hydraté’,Rev. Matér. Constr. Trav. Publics 676 (1973) 35–41.

[7]

Tuutti, K., ‘Corrosion of steel in concrete’, Research Report FO 4 (Swedish Cement and Concrete Institute, Stockholm, 1982).

[8]

Sorensen, B. and Maahn, E., ‘Penetration rate of chloride in marine concrete structures’,Nordic Concr. Res. 1 (1982) 24.1–24.18.

[9]

Page, C. L. and Vennesland, O., ‘Pore solution composition and chloride binding capacity of silica-fume cement pastes’,Mater. Struct. 16 (1983) 19–25.

[10]

Holden, W. R., Page, C. L. and Short, N. R., ‘The influence of chlorides and sulphates on durability’, in ‘Corrosion of Reinforcement in Concrete Construction’, edited by A. P. Crane (Ellis Horwood, Chichester, 1983) pp. 143–150.

[11]

Andrade, C. and Page, C. L., ‘Pore solution chemistry and corrosion in hydrated cement systems containing chloride salts: a study of cation specific effects’,Br. Corrosion J. 21 (1) (1986) 49–53. 10.1179/000705986798272415

[12]

Page, C. L., Short, N. R. and Holden, W. R., ‘The influence of different cements on chloride-induced corrosion of steel in concrete’,Cement Concr. Res. 16 (1) (1986) 79–86. 10.1016/0008-8846(86)90071-2

[13]

Byfors, K., Hansson, C. M. and Tritthart, J., ‘Pore solution expression as a method to determine the influence of mineral additives on chloride binding’.ibid. 16 (5) (1986) 760–770. 10.1016/0008-8846(86)90050-5

[14]

Diamond, S., ‘Chloride concentrations in concrete pore solutions resulting from calcium and sodium chloride admixtures’.Cement Concr. Aggreg. 8 (2) (1986) 97–102. 10.1520/cca10062j

[15]

Mangat, P. and Gurusamy, K., ‘Pore fluid composition under marine exposure of steel fibre reinforced concrete’,Cement Concr. Res. 17 (5) (1987) 734–742. 10.1016/0008-8846(87)90036-6

[16]

Kayyali, O. A. and Haque, M. N., ‘Chloride penetration and the ratio of Cl−/OH− in the pores of cement paste’.ibid. 18 (6) (1988) 895–901. 10.1016/0008-8846(88)90025-7

[17]

Vogel, A. I., ‘A Text-book of Quantitative Inorganic Analysis’, 4th Edn (Longman, Harlow, 1978) pp. 753–755.

[18]

Berman, H. A., ‘Determination of chloride in hardened portland cement paste, mortar and concrete’,J. Mater. 7 (1972) 330–335.

[19]

Wallbank, E. J., ‘The performance of concrete in bridges: a survey of 200 highway bridges’ (Department of Transport, HMSO, London, 1989).

[20]

Neville, A. M. and Brooks, J. J., ‘Concrete Technology’ (Longman, Harlow, 1987) pp. 101–108.

[21]

Crank, J., ‘The Mathematics of Diffusion’ (Oxford University Press, 1975).

[22]

Collepardi, M., Marcialis, A. and Turriziani, R., ‘Penetration of chloride ions into cement pastes and concretes’,J. Amer. Ceram. Soc. 55 (1972) 534–535. 10.1111/j.1151-2916.1972.tb13424.x

[23]

Page, C. L., Short, N. R. and El Tarras, A., ‘Diffusion of chloride ions in hardened cement pastes’,Cement Concr. Res. 11 (1981) 395–406. 10.1016/0008-8846(81)90111-3

[24]

Roberts, M. H., ‘Effects of calcium chloride on the durability of pre-tensioned wire in prestressed concrete’,Mag. Concr. Res. 14 (42) (1962) 143–154. 10.1680/macr.1962.14.42.143

[25]

Nixon, P. J., Page, C. L., Canham, I. and Bollinghaus, R., ‘Influence of sodium chloride on alkali-silica reaction’,Adv. Cement Res. 1 (2) (1988) 99–106. 10.1680/adcr.1988.1.2.99

[26]

Lambert, P., Page, C. L. and Vassie, P. R. W., ‘Investigations of reinforcement corrosion. 2. Electrochemical monitoring of steel in chloride-contaminated concrete’,Mater. Struct. in press. 10.1007/bf02472068

Cited By

82

Finite Boundary Conditions Due to the Bar Presence in the Model of Chloride Penetration

Fabiano Tavares, Carmen Andrade · 2022

Materials

Metrics

82

Citations

26

References

Details

Published: Jul 01, 1991
Vol/Issue: 24(4)
Pages: 243-252
License: View

Authors

Transfers Interfaces and Processes (TIPs), Ecole Polytechnique de Bruxelles (CP 165/67), Université Libre de Bruxelles, 1050 Brussels, Belgium.

P

P. R. W. Vassie

Cite This Article

C. L. Page, P. Lambert, P. R. W. Vassie (1991). Investigations of reinforcement corrosion. 1. The pore electrolyte phase in chloride-contaminated concrete. Matériaux et Constructions, 24(4), 243-252. https://doi.org/10.1007/bf02472078

Investigations of reinforcement corrosion. 1. The pore electrolyte phase in chloride-contaminated concrete

You May Also Like