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51312-01605-DIFFUSION OF CHLORIDES IN CONCRETE EXPOSED TO THE CARIBBEAN ENVIRONMENT

Product Number: 51312-01605-SG
ISBN: 01605 2012 CP
Author: Eric Ivan Moreno
Publication Date: 2012
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$20.00
$20.00
As the environment in the Caribbean coast is highly aggressive the housing infrastructure built in this region is continually affected with heavy losses due to corrosion of the reinforcing steel embedded in concrete. This fact was confirmed in a previous research where two housing developments were studied in the Mexican coast. To gather information with respect to the diffusion of chlorides in concrete made with highly-porous crushed limestone under marine environment two types of cement were employed: ordinary Portland cement and pozzolanic cement. The aggregate used was crushed limestone for both coarse and fine aggregate (5% absorption). Two water to cementitious materials ratios were employed 0.5 and 0.7; equivalent to 35 and 20 MPa respectively. Two curing treatments were employed: 1-day and 14-day wet curing periods. Concrete specimens were prismatic 15 by 15 by 20 cm. Once concrete specimens were two weeks old they were exposed to marine environment at 90 m from the shoreline. Performance of the external concrete layer was determined by chloride ingress. Two extraction methods were employed acid-soluble (FDOT) and water-soluble (RILEM) followed by potentiometric titration with a Silver ion reference electrode. Results indicate that chloride concentrations were significant higher for the 1-day curing specimens than for the 14-day curing ones as well as for the ordinary Portland cement specimens compared with the pozzolanic cement specimens.
As the environment in the Caribbean coast is highly aggressive the housing infrastructure built in this region is continually affected with heavy losses due to corrosion of the reinforcing steel embedded in concrete. This fact was confirmed in a previous research where two housing developments were studied in the Mexican coast. To gather information with respect to the diffusion of chlorides in concrete made with highly-porous crushed limestone under marine environment two types of cement were employed: ordinary Portland cement and pozzolanic cement. The aggregate used was crushed limestone for both coarse and fine aggregate (5% absorption). Two water to cementitious materials ratios were employed 0.5 and 0.7; equivalent to 35 and 20 MPa respectively. Two curing treatments were employed: 1-day and 14-day wet curing periods. Concrete specimens were prismatic 15 by 15 by 20 cm. Once concrete specimens were two weeks old they were exposed to marine environment at 90 m from the shoreline. Performance of the external concrete layer was determined by chloride ingress. Two extraction methods were employed acid-soluble (FDOT) and water-soluble (RILEM) followed by potentiometric titration with a Silver ion reference electrode. Results indicate that chloride concentrations were significant higher for the 1-day curing specimens than for the 14-day curing ones as well as for the ordinary Portland cement specimens compared with the pozzolanic cement specimens.
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