| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Advances in Autogenous Self-healing of Cementitious Materials |
| SHI Da, SHI Caijun, WU Zemei, ZHANG Zuhua, LI Kai, LIU Yiwei, HOU Sailong
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| College of Civil Engineering,Hunan University,Changsha 410082, China |
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Abstract Self-healing technique of cement-based materials can be used to effectively heal micro-cracks, which reduces maintenance cost of enginee-ring structures and realize sustainable development of green building materials. According to the used repair materials and relevant self-hea-ling mechanisms, it can be divided into different categories, including polymer self-healing, electrochemical self-healing, microbial self-healing, and self-healing based on physical and chemical properties of cementitious materials'components. The autogenous self-healing that relied on physical and chemical properties of components of cement-based materials is considered to be an easily-implemented, low-cost, simple and feasible approach. This paper reviews the research progress of autogenous self-healing of cementitious materials in recent years. Several typical methods for improving self-healing properties are summarized, which include the usage of crystalline and expansive agents, mineral admixtures, fibers, and superabsorbent polymer. The mechanisms and healing effects of these self-healing techniques are discussed, respectively. The existing problems and improvements of this approach are addressed, its development trend and future applications are finally presented.
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Published: 22 April 2021
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| Fund:National Key Research and Development Plan of China (2018YFC0705400),Research and Innovation Program for Postgraduates in Hunan Province (CX20190291). |
About author:: Da Shireceived his B.E. degree in civil engineering from Changsha University of Science and Technology in 2017. He is currently pursuing his MA.Eng at the Institute of Civil Engineering, Hunan University under the supervision of Prof. Caijun Shi. His research has focused on self-healing performance of ultra-high performance concrete.
Caijun Shiis currently a chair professor of College of Civil Engineering, Hunan University and China Academy of Building Materials, the second batch of National “Thousand Talents Program” Specially-invited Expert, Distinguished Expert of Hunan Province, Vice chairman of Asian Concrete Federation, doctoral supervisor, China Building Materials Science Research Distinguis-hed professor, doctoral tutor, academy. He is an edi-tor-in-chief of Journal of Sustainable Cement-based Materials, co-editor of Journal of Ceramics in Modern Technologies, associate editor of Journal of Materials in Civil Engineering and Journal of Chinese Ceramic Society, and an editorial board member of Cement and Concrete Research, Cement and Concrete Composites, Construction and Building Materials, Materials Reports and Journal of Building Materials. His research interests include characterization and utilization of industrial by-products and waste materials, design and testing of cement and concrete materials, development and evaluation of cement additives and concrete admixtures, and solid and hazardous waste management. He has authored/coauthored more than 320 technical papers, seven English books, three Chinese books and edited/co-edited six international conference proceedings. In recognizing his contributions to researches in waste management and concrete technology, he was elected as a fellow of International Energy Foundation in 2001, a fellow of American Concrete Institute in 2007,and a fellow of RILEM in 2016。 |
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