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document
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Wan, Z. (author), Xu, Y. (author), He, S. (author), Chen, Y. (author), Xie, J. (author), Šavija, B. (author)
Direct ink writing of cementitious materials can be an alternative way for creating vascular self-healing concrete by intentionally incorporating hollow channels in the cementitious matrix. In this study, a 3D-printable fibre reinforced mortar was first developed. Three groups of specimens were fabricated using direct ink writing, where the...
journal article 2023
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document
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Wan, Z. (author), Xu, Y. (author), Zhang, Y. (author), He, S. (author), Šavija, B. (author)
Cracking is one of the main causes for deterioration of concrete structures. Self-healing concrete with 3D-printed vascular networks has excellent potential for autonomous self-healing. This approach is scarcely investigated: no studies have been devoted to the influence of printing parameters on the properties of vascular based self-healing...
journal article 2022
Source URL (retrieved on 2024-06-05 03:20): https://repository.tudelft.nl/islandora/search/%20?amp%3Bamp%3Bf%5B0%5D=mods_subject_topic_ss%3A%22spatial%5C%20distribution%22&%3Bamp%3Bf%5B1%5D=mods_name_personal_author_namePart_family_ss%3A%22Schoups%22&%3Bcollection=research&f%5B0%5D=mods_name_personal_author_namePart_family_ss%3A%22He%22&f%5B1%5D=mods_subject_topic_ss%3A%223D%5C%20printing%22