Corrosion behavior of steel in high alumina cement mortar samples: Effect of chloride

The present study concerns the resistance of high alumina cement (HAC) concrete to chloride-induced corrosion, in terms of corrosion behaviour, binding of chloride ions and chloride transport. The corrosion resistance was evaluated using concrete specimens containing steel rebar exposed to a salt en

The influence of heterogeneity of cementitious matrices, e.g. uneven porosity distribution in repair cement paste or mortar, on surface corrosion of the reinforcing steel was investigated using a low frequency impedance technique. Rebar embedded in lower porosity matrices had lower surface impedance

Chloride binding and its influence on the rate of reinforcement corrosion has been investigated in a range of mixes by, respectively, pore solution analysis and measuring the galvanic current in macro corrosion cells formed by embedding mild steel bars in two layers of concrete. For chloride derived

The effects of adding ground limestone to high alumina cement mortar were studied. The hydration was c~ed out at 60°0 to form the cubic hydrate C AM directly, hence avoiding the conversion of CAM to o I O3AM6, an~ a~ 20 C, Other experiments involved subsequent carbonation with CO 2 an~ thermal ~reat

This paper presents the results of an experimental investigation of the corrosion of steel rebars in different types of mortars immersed in 3"5% sodium chloride solution. The corrosion rate of the steel bars was determined in relation to the curing time and to the addition of Greek fly ash at 15 wt%

Pore solution study has been carried out on 2.43 and 14% C3A hardened cement pastes. Data have been analyzed in conjunction with the data developed in two pore solution studies made by Page and Vennesland and Diamond using 7.37 and 9.1% C3A mature cement pastes. The results show that C3A and alkali