Print Email Facebook Twitter Self-healing of cementitious materials using sustainable cenosphere-based manufactured aggregate Title Self-healing of cementitious materials using sustainable cenosphere-based manufactured aggregate Author Lv, Leyang (Shenzhen University) Zhang, Xiangyu (Shenzhen University) Šavija, B. (TU Delft Materials and Environment) Zhang, Mingzhong (University College London) Han, Kaihang (Shenzhen University) Zhang, Honghzhi (Shandong University) Pei, Chun (Shenzhen University) Zhu, Jihua (Shenzhen University) Xing, Feng (Shenzhen University) Date 2024 Abstract Self-healing concrete using encapsulated healing agent has shown great potential in enhancing concrete durability. However, the capsules are expensive to make and can lower the mechanical properties of concrete. In this study, a new type of manufactured aggregate that employs waste-derived fly ash cenosphere as a carrier of healing agent (SH-CS) was designed and produced. The effect of SH-CS incorporation on hydration, engineering properties and self-healing efficiency of cement mortar was systematically evaluated, with a special focus on self-healing mechanism through the analysis of the mineral composition of the healing product. The results indicate that the prepared SH-CS has good stability in and compatibility with cement mortar. The addition of SH-CS has small influence on the fresh properties of cement mortar and less negative effect on compressive strength at the hardened stage compared to the existing study. By replacing 3 wt.% of fine aggregate with SH-CS, up to 71% of the crack opening area of mortar specimens with a crack width of about 0.3 mm was self-healed after 28 days of water exposure. The self-healing behaviour of SH-CS led to a maximal 41% drop in water adsorption and contributed to the recovery of flexural strength. The healing products precipitated on the fracture surface were mainly composed of amorphous C-S-H and Calcite. It can be estimated that incorporating SH-CS in concrete would result in only a moderate (∼29%) rise in cost for C40 concrete. Subject CenosphereEncapsulated healing agentEngineering propertiesHydrationMicrostructureSelf-healing concrete To reference this document use: http://resolver.tudelft.nl/uuid:cf52ea5d-6ad8-48f1-8fb3-03f42fe3c3a5 DOI https://doi.org/10.1016/j.conbuildmat.2024.135361 Embargo date 2024-08-21 ISSN 0950-0618 Source Construction and Building Materials, 419 Bibliographical note Green Open Access added to TU Delft Institutional Repository ‘You share, we take care!’ – Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public. Part of collection Institutional Repository Document type journal article Rights © 2024 Leyang Lv, Xiangyu Zhang, B. Šavija, Mingzhong Zhang, Kaihang Han, Honghzhi Zhang, Chun Pei, Jihua Zhu, Feng Xing Files file embargo until 2024-08-21