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Biomineralized cement-based materials: impact of inoculating vegetative bacterial cells on hydration and strength

Title Biomineralized cement-based materials: impact of inoculating vegetative bacterial cells on hydration and strength
Author Bundur, Zeynep Başaran, Kirisits, M. J., Ferron, R. D.
Publication Date: 2015-01
Publication Place - Elsevier
Subject Biomineralization, Carbonation (C), Cement paste (D), Hydration (A), Compressive strength (C)
Type Periodical
Language English
Digital Yes
Manuscript No
Library: Özyeğin University
Library Asset ID 0008-8846
Record ID 0d5e4822-a058-407d-b76d-eed6c7595cd3
Library Location Civil Engineering
Date 2015-01
Notes Due to copyright restrictions, the access to the full text of this article is only available via subscription.
Sample Text Biomineralization in cement-based materials has become a point of interest in recent years due to the possibility that such an approach could be used to develop a self-healing cement-based system. The objective of this study was to investigate the impact of vegetative cells of Sporosarcina pasteurii on the hydration kinetics and compressive strength of cement-based materials. The hydration kinetics were greatly influenced when a bacterial solution consisting of urea-yeast extract nutrient medium and vegetative cells was used to prepare bacterial cement pastes; specifically, severe retardation was observed. In addition, an increase in calcium carbonate precipitation, particularly calcite, occurred within the bacterial pastes. Furthermore, after the first day of hydration, the bacterial mortar displayed compressive strength that was similar to or greater than the compressive strength of the neat mortar.
DOI 10.1016/j.cemconres.2014.10.002
Cilt 67
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Biomineralized cement-based materials: impact of inoculating vegetative bacterial cells on hydration and strength

Author Bundur, Zeynep Başaran, Kirisits, M. J., Ferron, R. D.
Publication Date 2015-01
Publication Place - Elsevier
Subject Biomineralization, Carbonation (C), Cement paste (D), Hydration (A), Compressive strength (C)
Type Periodical
Language English
Digital Yes
Manuscript No
Library Özyeğin University
Library Asset ID 0008-8846
Record ID 0d5e4822-a058-407d-b76d-eed6c7595cd3
Library Location Civil Engineering
Date 2015-01
Notes Due to copyright restrictions, the access to the full text of this article is only available via subscription.
Sample Text Biomineralization in cement-based materials has become a point of interest in recent years due to the possibility that such an approach could be used to develop a self-healing cement-based system. The objective of this study was to investigate the impact of vegetative cells of Sporosarcina pasteurii on the hydration kinetics and compressive strength of cement-based materials. The hydration kinetics were greatly influenced when a bacterial solution consisting of urea-yeast extract nutrient medium and vegetative cells was used to prepare bacterial cement pastes; specifically, severe retardation was observed. In addition, an increase in calcium carbonate precipitation, particularly calcite, occurred within the bacterial pastes. Furthermore, after the first day of hydration, the bacterial mortar displayed compressive strength that was similar to or greater than the compressive strength of the neat mortar.
DOI 10.1016/j.cemconres.2014.10.002
Cilt 67
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