Artículos de revistas
Reinforced concrete in marine environment: effect of wetting and drying cycles, height and positioning in relation to the sea shore
Fecha
2013-06Registro en:
Construction and Building Materials, Netherlands, v. 44, p. 452-457, Jun. 2013
0950-0618
doi:10.1016/j.conbuildmat.2013.02.078
Autor
Medeiros, M. H. F.
Gobbi, A.
Réus, G. C.
Helene, Paulo Roberto do Lago
Institución
Resumen
Many studies about service life predictions of reinforced concrete structures are under development worldwide. However, much more advanced knowledge in this area is still needed before attaining real- istic models. Real case studies are extremely important to indicate the factors of influence to be consid- ered as variables in these models, making them closer to reality. This study of a reinforced concrete structure exposed to the environment for about 40 years is inserted in this context. The chloride-ion contents from pillars of a reinforced concrete structure located in a marine environ- ment, approximately 700 m away from the coastline are analyzed, showing the effect of the height (with samples from different levels), wetting and drying cycles and the positioning of the pillars in relation to the coastline. The results show that the higher the concrete is, the lower the chloride contamination degree. It is shown that in the absence of wetting and drying cycles, the chloride-ion contents are smaller than the threshold limit of 0.40% per cement mass. Furthermore, the results show that there is no influence of the position of the pillars in relation to the sea and that the concrete located in regions where there are wetting and drying cycles is more contaminated by chloride.