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A platform for research: civil engineering, architecture and urbanism
Biogenic treatment improves the durability and remediates the cracks of concrete structures
Highlights Biogenic treatment enhanced the durability properties of building structures. Permeability of concrete specimens significantly reduced due to bacterial treatment. Biogenic treatment remediate the cracks of concrete specimens. Compressive strength of cement mortar specimens enhanced due to calcite precipitation.
Abstract Microbially induced calcium carbonate precipitation is a naturally occurring biological process that has various applications in remediation and restoration of range of building materials. In the present study the role of bacteria Bacillus sp. on the durability properties and remediation of cracks in cementitious structures were studied. “Biocement” induced by a Bacillus sp. lead to more than 50% reduction in the porosity of mortar specimens, while chloride permeability of concrete changed from “moderate” to “very low” as indicated by rapid chloride permeability test. The bacteria successfully healed the simulated cracks of depths including 27.2mm in cement mortars with increase in the compressive strength as high as 40% of that of control. The results clearly showed microbially induced calcium carbonate precipitation can be applied for various building materials for remediation of cracks and enhancement of durability.
Biogenic treatment improves the durability and remediates the cracks of concrete structures
Highlights Biogenic treatment enhanced the durability properties of building structures. Permeability of concrete specimens significantly reduced due to bacterial treatment. Biogenic treatment remediate the cracks of concrete specimens. Compressive strength of cement mortar specimens enhanced due to calcite precipitation.
Abstract Microbially induced calcium carbonate precipitation is a naturally occurring biological process that has various applications in remediation and restoration of range of building materials. In the present study the role of bacteria Bacillus sp. on the durability properties and remediation of cracks in cementitious structures were studied. “Biocement” induced by a Bacillus sp. lead to more than 50% reduction in the porosity of mortar specimens, while chloride permeability of concrete changed from “moderate” to “very low” as indicated by rapid chloride permeability test. The bacteria successfully healed the simulated cracks of depths including 27.2mm in cement mortars with increase in the compressive strength as high as 40% of that of control. The results clearly showed microbially induced calcium carbonate precipitation can be applied for various building materials for remediation of cracks and enhancement of durability.
Biogenic treatment improves the durability and remediates the cracks of concrete structures
Achal, Varenyam (author) / Mukerjee, Abhijeet (author) / Sudhakara Reddy, M. (author)
Construction and Building Materials ; 48 ; 1-5
2013-06-19
5 pages
Article (Journal)
Electronic Resource
English
Biogenic treatment improves the durability and remediates the cracks of concrete structures
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