A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
HighlightsBacterial treatment reduced water absorption of both lightweight and normal-weight aggregates.Bacteria S. pasteurii resulted in a more decrease in the uptake of water in LWA compared to Bacillus subtilis.Bacterial activity on the aggregates was proven through SEM and XRD analysis.
AbstractThis paper presents the results of an experimental investigation carried out to evaluate the influence of two types of bacteria, namely Sporosarcina pasteurii and Bacillus subtilis, with different cell concentrations (106, 107, 108cells.ml−1) on the water absorption of four types of concrete aggregates. Surface deposition of calcium carbonate crystals was found to decrease water absorption by 20–30%, depending on the type of bacteria and aggregate porosity. The use of ureolytic gram-positive bacteria S. pasteurii resulted in a more pronounced decrease in the uptake of water by the aggregates. The reduced water absorption observed was possibly due to deposition on the bacteria cell walls in the pores. The results show that the aggregates retained their properties and yielded the same results after about 20days, indicating that the deposits remained over this time period. The XRD and SEM analysis indicated the formation of calcite in bacterial aggregates.
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
HighlightsBacterial treatment reduced water absorption of both lightweight and normal-weight aggregates.Bacteria S. pasteurii resulted in a more decrease in the uptake of water in LWA compared to Bacillus subtilis.Bacterial activity on the aggregates was proven through SEM and XRD analysis.
AbstractThis paper presents the results of an experimental investigation carried out to evaluate the influence of two types of bacteria, namely Sporosarcina pasteurii and Bacillus subtilis, with different cell concentrations (106, 107, 108cells.ml−1) on the water absorption of four types of concrete aggregates. Surface deposition of calcium carbonate crystals was found to decrease water absorption by 20–30%, depending on the type of bacteria and aggregate porosity. The use of ureolytic gram-positive bacteria S. pasteurii resulted in a more pronounced decrease in the uptake of water by the aggregates. The reduced water absorption observed was possibly due to deposition on the bacteria cell walls in the pores. The results show that the aggregates retained their properties and yielded the same results after about 20days, indicating that the deposits remained over this time period. The XRD and SEM analysis indicated the formation of calcite in bacterial aggregates.
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
Hosseini Balam, Nafise (author) / Mostofinejad, Davood (author) / Eftekhar, Mohamadreza (author)
Construction and Building Materials ; 141 ; 565-577
2017-03-07
13 pages
Article (Journal)
Electronic Resource
English
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
| British Library Online Contents | 2017
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
| British Library Online Contents | 2017
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
| British Library Online Contents | 2017
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
| Online Contents | 2017
Use of carbonate precipitating bacteria to reduce water absorption of aggregates
| British Library Online Contents | 2017