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Bacterial Self-Healing Performance of Coated Expanded Clay in Concrete

Authors
Han, SanghyunJang, IndongChoi, Eun KyungPark, WoojunYi, ChongkuChung, Namhyun
Issue Date
1-7월-2020
Publisher
ASCE-AMER SOC CIVIL ENGINEERS
Keywords
Coating; Bacterial biomineralization; Expanded clay; Self-healing concrete; Permeability experiment
Citation
JOURNAL OF ENVIRONMENTAL ENGINEERING, v.146, no.7
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF ENVIRONMENTAL ENGINEERING
Volume
146
Number
7
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/54456
DOI
10.1061/(ASCE)EE.1943-7870.0001713
ISSN
0733-9372
Abstract
Concrete crack healing by microbial calcium carbonate producers has been intensively studied for the last 10 years. To overcome the harsh environments of concrete, various carriers have been tested for their ability to protect the healing bacteria. Using expanded clay (EC) as a carrier is attractive because it provides adequate bond strength to the cement composites as well as protection to the bacteria from harsh environments. In this study, self-healing performance by EC was examined using styrene-acrylic emulsion coatings. First, the presence of bacteria (Lysinibacillus boronitolerans YS11) within EC was verified using electron microscopy after the bacteria were immobilized. Although coating has a negative effect on the preservation of bacterial density under normal conditions, the bacterial density was higher for coated EC [5.0x104 colony forming unit (CFU)/g of EC] than for uncoated EC (2.4x103CFU/g of EC) when exposed to a harsh environment (60 degrees C and pH 12) for 48 h. This suggests that coating the surface of EC was successful in protecting bacteria from the environmental stressors. Even though bacteria were within the EC, the bacterial survival rate quickly declined with time inside the mortar. However, the bacterial density was much higher for coated than for uncoated EC at day 28, suggesting that the coating provides the bacteria with excellent protection from the harsh environment within the mortar. The concrete healing rates were 70% for uncoated EC and 75% for coated EC, compared to the healing rate of 50% and 42% for plain mortar and mortar with empty EC, respectively. These results suggest that the healing rate has increased with EC containing bacteria.
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College of Life Sciences and Biotechnology > Division of Environmental Science and Ecological Engineering > 1. Journal Articles
College of Engineering > School of Civil, Environmental and Architectural Engineering > 1. Journal Articles
Graduate School > Department of Biosystems and Biotechnology > 1. Journal Articles

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생명과학대학 (환경생태공학부)
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