Self-healing efficiency of cementitious materials containing microcapsules filled with healing adhesive: mechanical restoration and healing process monitored by water absorption

Autonomous crack healing of cementitious composite, a construction material that is susceptible to cracking, is of great significance to improve the serviceability and to prolong the longevity of concrete structures. In this study, the St-DVB microcapsules enclosing epoxy resins as the adhesive agen...

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Bibliographic Details
Published in:PloS one 2013-11, Vol.8 (11), p.e81616-e81616
Main Authors: Li, Wenting, Jiang, Zhengwu, Yang, Zhenghong, Zhao, Nan, Yuan, Weizhong
Format: Article
Language:English
Subjects:
Absorption
Absorption, Physicochemical
Adhesives
Adhesives - chemistry
Capsules
Cement
Cements
Civil engineering
Composite materials
Concrete
Concrete structures
Construction Materials
Cracking (fracturing)
Cracks
Curing
Damage assessment
Education
Efficiency
Epoxy resins
Fracture mechanics
Fracture toughness
Laboratories
Materials fatigue
Materials science
Materials Testing
Mechanical Phenomena
Microcapsules
Pollutants
Polymerization
Polymers
Porosity
Resins
Restoration
Self healing materials
Stiffness
Surfactants
Water - chemistry
Water absorption
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Summary:Autonomous crack healing of cementitious composite, a construction material that is susceptible to cracking, is of great significance to improve the serviceability and to prolong the longevity of concrete structures. In this study, the St-DVB microcapsules enclosing epoxy resins as the adhesive agent were embedded in cement paste to achieve self-healing capability. The self-healing efficiency was firstly assessed by mechanical restoration of the damaging specimens after being matured. The flexural and compressive configurations were both used to stimulate the localized and distributed cracks respectively. The effects of some factors, including the content of microcapsules, the curing conditions and the degree of damage on the healing efficiency were investigated. Water absorption was innovatively proposed to monitor and characterize the evolution of crack networks during the healing process. The healing cracks were observed by SEM-EDS following. The results demonstrated that the capsule-containing cement paste can achieve the various mechanical restorations depending on the curing condition and the degree of damage. But the voids generated by the surfactants compromised the strength. Though no noticeable improved stiffness obtained, the increasing fracture energy was seen particularly for the specimen acquiring 60% pre-damage. The sorptivity and amount of water decreased with cracks healing by the adhesive, which contributed to cut off and block ingress of water. The micrographs by SEM-EDS also validated that the cracks were bridged by the hardened epoxy as the dominated elements of C and O accounted for 95% by mass in the nearby cracks.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0081616