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Mortar crack repair using microbial induced calcite precipitation method

An experimental investigation has been carried out to repair pre-existing cracks in mortar using the microbiologically induced calcium carbonate precipitation (MICP) technology. In the study, 20 cylinder mortar samples (50 mm in diameter and 40 mm in height) were split to have cracks with various si...

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Bibliographic Details
Published in:Cement & concrete composites 2017-10, Vol.83, p.209-221
Main Authors: Choi, Sun-Gyu, Wang, Kejin, Wen, Zhiyou, Chu, Jian
Format: Article
Language:English
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Summary:An experimental investigation has been carried out to repair pre-existing cracks in mortar using the microbiologically induced calcium carbonate precipitation (MICP) technology. In the study, 20 cylinder mortar samples (50 mm in diameter and 40 mm in height) were split to have cracks with various sizes. Sixteen of the cracked samples, an average width ranging from 0.15 to 1.64 mm, were repaired using the MICP method, while four cracked samples, with an average width ranging from 0.17 to 1.72 mm, were soaked under distilled water. The water permeability and splitting tensile strength (TS) of these repaired mortars were tested. The amounts of calcium carbonate (CaCO3) precipitated on the cracked mortar surfaces were evaluated. The morphology of the CaCO3 was observed under a scanning electron microscope (SEM). The results indicated that the MICP repair technique clearly reduced water permeability of the cracked samples. While water-treated samples were too weak to test, the MICP-repaired samples had TS ranging from 32 to 386 kPa after 21 cycles of MICP solution treatment. A relationship between the TS and amount of CaCO3 precipitated was observed for samples with an average crack width between 0.52 and 1.1 mm, which indicated that TS increased with the amount of CaCO3 precipitated on the crack surfaces. The SEM revealed that the precipitated CaCO3 had possibly two forms: vaterite and calcite. •Permeability of mortar is reduced after cracks are repaired using MICP technology.•Samples has regained up to 386 kPa of splitting tensile strength (TS) after the MICP repair.•TS regain from the repair is related to the amount of biogenic CaCO3 precipitated on crack surfaces.•The precipitated CaCO3 observed in the present study had possibly two forms: vaterite and calcite.
ISSN:0958-9465
1873-393X
DOI:10.1016/j.cemconcomp.2017.07.013