Litcius/Paper detail

Crack-healing ability of concrete enhanced by aerobic-anaerobic bacteria and fibers

Lu Jiang, Xia Hua, Sisi Hu, Xiangbi Zhao, Wenjing Wang, Yu Zhang, Zhu Li

2024Cement and Concrete Research41 citationsDOIOpen Access PDF

Abstract

In this study, the self-healing of cracks in four repair systems mixed by aerobic-anaerobic bacteria and fiber is studied. The results showed that specimens S-1, S-3, and S-4 demonstrate remarkable efficacy in achieving complete repair for the majority of cracks with widths of 0.6 mm or less within a healing period of 28 d. Conversely, cracks exceeding 0.45 mm in width in specimen S-2 present challenges in achieving complete restoration. The Water permeability experiments showed that the crack repair effect of the four groups of specimens was in the following order: S-4 > S-3 > S-1 > S-2. Notably, cracks with initial widths <0.4 mm exhibit a commendable secondary repair rate of approximately 90 %. Further analysis underscores the fiber-reinforced binary microbial mineralization repair system (S-4) as yielding optimal repair outcomes, significantly enhancing water seepage resistance post-repair. This comprehensive investigation underscores the potential of our proposed repair systems to effectively crack-healing.

Topics & Concepts

Anaerobic exerciseMaterials scienceComposite materialMedicinePhysical therapyMicrobial Applications in Construction MaterialsGrouting, Rheology, and Soil MechanicsInnovative concrete reinforcement materials