Prestressed concrete structures cannot escape from corrosion problems, especially when they are subjected to very aggressive environment, such as chloride environment. For prestressed concrete structures, corrosion of prestressing strands may initiate structural collapse due to higher stress levels in the steel. Research on corrosion effect on concrete structures has mainly considered the effect of corrosion have on reinforced and full prestressed concrete structures. In this study, a structural framework will be developed to predict the flexural strength of partial prestressed concrete structures in a chloride environment. The framework developed will be combined with probability analysis to take into account the variability of parameters influencing the corrosion process.

corrosion; partial prestressed concrete structure; chloride; probability

Proverbio, E. and Ricciardi, G., 2000, Failure of a 40 Year Old Post-tensioned Bridge Near Seaside, Proc. Int. Conf. Eurocorr 2000, London, 10-14 September.

Papadakis, V.G., Roumeliotis, A.P., Fardis, M.N. and Vagenas, C.G., 1996, Mathematical Modelling of Chloride Effect on Concrete Durability and Protection Measures, Concrete Repair, Rehabilitation and Protection, R. K. Dhir and M. R. Jones (Eds), E & FN Spon, London, pp. 165-174.

Vu, K.A.T. and Stewart, M.G., 2000, Structural reliability of concrete bridges including improved chloride-induced corrosion models, Structural Safety, Vol. 22, No. 4, pp. 313-333.

Val, D.V. and Melchers, R.E., 1997, Reliability of deteriorating reinforced concrete slab bridges, Journal of Structural Engineering, Vol. 123, No. 12, pp. 1638-1644.

Darmawan, M.S. and Stewart, M.G., 2006, Effect of spatially variable pitting corrosion on structural reliability of prestressed concrete bridge girders, Australian Journal of Structural Engineering, Vol. 6, No. 2, pp. 147-158.

Darmawan, M.S., 2007, Pitting Corrosion Model for Reinforced Concrete Structures in A Chloride Environment, The future development in civil engineering based on research and practical

experience (International Conference), 26-27 September, University Pelita Harapan and University Stuttgart Germany, Lippo Karawaci, Jakarta, Indonesia, CD-ROM.

ASTM G1-03, 1999, Standard Practice for Preparing, Cleaning, and Evaluating Corrosion Test Specimens, American Standard Testing Materials (ASTM), West Conshohocken, Pennsylvania, USA.

Darmawan, M.S. and Stewart, M.G., 2007, Spatial Time-Dependent Reliability Analysis of Corroding Pretensioned Prestressed Concrete Bridge Girders, Structural Safety, Vol. 29, No. 1, pp. 16-31.

Stewart, M.G., 1995, Workmanship and Its Influence on Probabilistic Models of Concrete Compressive Strength, ACI Materials Journal, Vol. 92, No. 4, pp. 361-372.

Mirza, S. A., Kikuchi, D. K. and MacGregor, J. G., 1980, Flexural Strength Reduction Factor for Bonded Prestressed Concrete Beams, ACI Journal, Vol. 77, No. 4, pp. 237-246.

Mirza, S.A. and MacGregor, J.G., 1979a, Variability of Mechanical Properties of Reinforcing Bars, Journal of the Structural Division, ASCE, Vol. 105, No. ST5, pp. 921-937.

Mirza, S.A. and MacGregor, J.G., 1979b, Variations in Dimensions of Reinforced Concrete Members, Journal of the Structural Division, ASCE, Vol. 105, No. ST4, pp. 751-766.

Ellingwood, B., Galambos, T.V., MacGregor, J.G. and Cornell C. A., 1980, Development of a Probability Based Load Criterion for American National Standard A58, National Bureau of Standards Special Publication 577, US Government Printing Office, Washington DC.

Vu, K. A. T. and Stewart, M.G., 2000, Structural Reliability of Concrete Bridges Including Improved Chloride-induced Corrosion Models, Structural Safety, Vol. 22, No. 4, pp. 313-333.

Warner, R. F., Rangan, B. V., Hall, A. S. and Faulkes K. A., 1998, Concrete Structures, Longman Press, Melbourne.

AS 3600, 2001, Concrete Structures, Standards Association of Australia, Homebush, New South Wales, Australia.

BRITE/EURAM, 1995, The Residual Service Life of Reinforced Concrete Structures, Final Technical Report, Report No. BRUECT92- 0591.Jones, D. A., Principles and Prevention of Corrosion, Macmillan Publishing Co, New York, N. Y.