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Self-Healing Properties of Conventional and Fly Ash Cementitious Mortar, Exposed to High Temperature

Self-Healing Properties of Conventional and Fly Ash Cementitious Mortar, Exposed to High Temperature

Shaswata Mukherjee, Saroj Mondal
Copyright: © 2015 |Pages: 11
ISBN13: 9781466684904|ISBN10: 1466684909|EISBN13: 9781466684911
DOI: 10.4018/978-1-4666-8490-4.ch001
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MLA

Mukherjee, Shaswata, and Saroj Mondal. "Self-Healing Properties of Conventional and Fly Ash Cementitious Mortar, Exposed to High Temperature." Emerging Design Solutions in Structural Health Monitoring Systems, edited by Diego Alexander Tibaduiza Burgos, et al., IGI Global, 2015, pp. 1-11. https://doi.org/10.4018/978-1-4666-8490-4.ch001

APA

Mukherjee, S. & Mondal, S. (2015). Self-Healing Properties of Conventional and Fly Ash Cementitious Mortar, Exposed to High Temperature. In D. Burgos, L. Mujica, & J. Rodellar (Eds.), Emerging Design Solutions in Structural Health Monitoring Systems (pp. 1-11). IGI Global. https://doi.org/10.4018/978-1-4666-8490-4.ch001

Chicago

Mukherjee, Shaswata, and Saroj Mondal. "Self-Healing Properties of Conventional and Fly Ash Cementitious Mortar, Exposed to High Temperature." In Emerging Design Solutions in Structural Health Monitoring Systems, edited by Diego Alexander Tibaduiza Burgos, Luis Eduardo Mujica, and Jose Rodellar, 1-11. Hershey, PA: IGI Global, 2015. https://doi.org/10.4018/978-1-4666-8490-4.ch001

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Abstract

Direct stress and sub-stress caused by fire, temperature variation and external loading in a structure are most important for the development of cracks. The chemical reactions of natural healing in the matrix was not been established conclusively. The most significant factor that influences the self-healing is the precipitation of calcium carbonate crystals on the crack surface. The mechanism which contribute autogenic healing are: (a) Continued hydration of cement at cracked surface as well as continued hydration of already formed gel and also inter-crystallization of fractured crystals; (b) blocking of flow path by water impurities and concrete particles broken from the crack surface due to cracking; (c) expansion of concrete in the crack flank (swelling) and closing of cracks by spalling of loose concrete particle are also reported as the sealing mechanism by researchers. The recovery of mechanical as well as physical property was discussed by different researchers. An experimental investigation was carried out to study the autogenic healing of fire damaged fly ash and conventional cementitious mortar samples subjected to steam followed by water curing at normal atmospheric pressure. The micro cracks are generated artificially by heating the 28 days aged mortar samples at 800 Deg. C. The effect of fly-ash replacing ordinary Portland cement by 0 and 20% was studied. Recovery of compressive strength and physical properties i.e. apparent porosity, water absorption, ultrasonic pulse velocity and rapid chloride ion penetration test confirm the self-healing of micro cracks. Such healing is more prominent for fly ash mortar mix. Optical as well as scanning electron microscopy With EDAX analysis and X-ray diffraction study of the white crystalline material formed in the crack, confirms formation of calcium carbonate.

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