Abstract
Porous ceramic roof-tile waste aggregate (PCA), which is a recycled material, is an effective internal curing material for concrete. Part of the aggregate is replaced with saturated internal curing material to supply internal water into the cement paste continuously. Internal water is effective to promote the hydration of cement paste, especially in concrete with a low water-to-cement ratio because external curing water cannot easily reach inside the concrete. It has been reported that PCA leads to an increase in compressive strength and the reduction of autogenous shrinkage of concrete. However, the effects of PCA in previous researches are different with regards to the experimental conditions and have not been evaluated sufficiently. Therefore, the present study aims to investigate the effect of internal water supplied from PCA microscopically. In the experimental program, a compressive strength test was conducted for 6 types of concrete with a W/C of 0.35. The microhardness around the aggregate in the concrete was also measured to investigate the extent of the influence of the internal water supply. The results showed the possibility that microhardness of ITZ around PCA is improved by internal curing water supply and the compressive strength of concrete is also improved by using PCA.
Highlights
Curing is conducted for concrete immediately after casting in a humid environment in order to promote the hydration of cement paste
The improvement of the interfacial transition zone (ITZ) leads to an increase in the compressive strength of concrete as shown in Figs.2 and 3
The present study investigated the effect of the internal curing water supply from Porous ceramic roof-tile waste aggregate (PCA) on the compressive strength and microhardness of concrete
Summary
Curing is conducted for concrete immediately after casting in a humid environment in order to promote the hydration of cement paste. External curing water cannot reach the inside of concrete sufficiently, especially in concrete with a low water to cement ratio (W/C) because the surface part of such a type of concrete is dense. To compensate for such a problem, internal water curing is effective to promote hydration. Porous ceramic roof-tile waste aggregate (PCA) is studied as an internal curing material. A compressive strength test of concrete with PCA was conducted, and the microhardness of the cement paste around the aggregate in the concrete was measured in order to investigate the extent of the influence of internal curing water supply
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