Bio self-healing concrete using MICP by an indigenous Bacillus cereus strain isolated from Qatari soil
Date
2022-04-18Author
Muazzam Ghous, SohailDisi, Zulfa Al
Zouari, Nabil
Nuaimi, Nasser Al
Kahraman, Ramazan
Gencturk, Bora
Rodrigues, Debora F.
Yildirim, Yucel
...show more authors ...show less authors
Metadata
Show full item recordAbstract
In this study, the self-healing process in concrete through microbial-induced calcium carbonate precipitation (MICP) performed by an adapted indigenous strain of Bacillus cereus isolated from soils in Qatar was investigated. This strain has advantage of withstanding and performing MICP in environments of 45–50 °C temperature and 80–100% relative humidity. Hence, it is considered a suitable candidate for self-healing in concrete. The performance of this new isolate was compared to that of Sporosarcina pasteurii, a well-studied strain for MICP in concrete. The strains were encapsulated in sodium alginate beads, which were then incorporated in the cement-sand mortar. It was observed that the selected local strain was able to fill cracks with widths ranging from 162 µm to 670 µm, while the Sporosarcina pasteurii strain was able to fill cracks with widths ranging from 200 µm to 4700 µm. Scanning electron microscopy (SEM) images provided evidence for the survival of the bacterial cells in the beads during the mixing of mortar and casting of the samples. The X-ray diffraction (XRD) spectra and SEM images confirmed the formation of calcium carbonates in the cracks. The local Bacillus cereus strain showed high urease activity and could be a viable and economical solution for the bio self-healing concrete through MICP where hot and humid climatic conditions are encountered.
Collections
- Biological & Environmental Sciences [920 items ]
- Center for Advanced Materials Research [1378 items ]
- Chemical Engineering [1174 items ]