Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Factors influencing self-healing mechanisms of cementitious materials: A review
https://orcid.org/0000-0002-6609-3110
Highlights Both autogenous and autonomous self-healing mechanisms of concrete are reviewed. Various factors and their correlation to the healing mechanisms are comprehensively compiled. Various parameters and crack width are all important for healing efficiency. The use of water to facilitate all healing mechanisms is paramount for triggering healing processes. Further studies are identified.
Abstract The increasing awareness of climate change and global warming has pushed industries to be more conscious of their environmental impact, especially in the construction industry with the main contributor being concrete. Concrete is a material that is in very high demand in the construction industry for structural applications. However, it’s a material with a major concern with the challenges of microcracking. New technology has seen the development of self-healing material, using novel techniques to bring cementitious materials back to its original state. This paper reviews and evaluates the novel techniques adopted by the researchers in the field to achieve a self-healing material, with the main focus being on the factors influencing the mechanisms of autogenous healing and bacteria-based healing. Various parameters including bacteria type, pH, temperature, nutrient, urea, and Ca2+ concentration, bacteria concentration and application, pre-cracking, healing condition, cement type, and crack width are all important for healing efficiency, although the use of water to facilitate both autogenous and ureolytic bacteria healing mechanism is paramount for the triggering of healing processes. This study thoroughly presents various factors and their correlation to the healing mechanisms of autogenous healing and ureolytic bacteria healing. Further studies are identified to better understand the exact mechanism taking place and which healing process contributed to how much of the healing, and this review could serve as an informative platform for these pursues.
Factors influencing self-healing mechanisms of cementitious materials: A review
https://orcid.org/0000-0002-6609-3110
Highlights Both autogenous and autonomous self-healing mechanisms of concrete are reviewed. Various factors and their correlation to the healing mechanisms are comprehensively compiled. Various parameters and crack width are all important for healing efficiency. The use of water to facilitate all healing mechanisms is paramount for triggering healing processes. Further studies are identified.
Abstract The increasing awareness of climate change and global warming has pushed industries to be more conscious of their environmental impact, especially in the construction industry with the main contributor being concrete. Concrete is a material that is in very high demand in the construction industry for structural applications. However, it’s a material with a major concern with the challenges of microcracking. New technology has seen the development of self-healing material, using novel techniques to bring cementitious materials back to its original state. This paper reviews and evaluates the novel techniques adopted by the researchers in the field to achieve a self-healing material, with the main focus being on the factors influencing the mechanisms of autogenous healing and bacteria-based healing. Various parameters including bacteria type, pH, temperature, nutrient, urea, and Ca2+ concentration, bacteria concentration and application, pre-cracking, healing condition, cement type, and crack width are all important for healing efficiency, although the use of water to facilitate both autogenous and ureolytic bacteria healing mechanism is paramount for the triggering of healing processes. This study thoroughly presents various factors and their correlation to the healing mechanisms of autogenous healing and ureolytic bacteria healing. Further studies are identified to better understand the exact mechanism taking place and which healing process contributed to how much of the healing, and this review could serve as an informative platform for these pursues.
Factors influencing self-healing mechanisms of cementitious materials: A review
https://orcid.org/0000-0002-6609-3110
Highlights Both autogenous and autonomous self-healing mechanisms of concrete are reviewed. Various factors and their correlation to the healing mechanisms are comprehensively compiled. Various parameters and crack width are all important for healing efficiency. The use of water to facilitate all healing mechanisms is paramount for triggering healing processes. Further studies are identified.
Abstract The increasing awareness of climate change and global warming has pushed industries to be more conscious of their environmental impact, especially in the construction industry with the main contributor being concrete. Concrete is a material that is in very high demand in the construction industry for structural applications. However, it’s a material with a major concern with the challenges of microcracking. New technology has seen the development of self-healing material, using novel techniques to bring cementitious materials back to its original state. This paper reviews and evaluates the novel techniques adopted by the researchers in the field to achieve a self-healing material, with the main focus being on the factors influencing the mechanisms of autogenous healing and bacteria-based healing. Various parameters including bacteria type, pH, temperature, nutrient, urea, and Ca2+ concentration, bacteria concentration and application, pre-cracking, healing condition, cement type, and crack width are all important for healing efficiency, although the use of water to facilitate both autogenous and ureolytic bacteria healing mechanism is paramount for the triggering of healing processes. This study thoroughly presents various factors and their correlation to the healing mechanisms of autogenous healing and ureolytic bacteria healing. Further studies are identified to better understand the exact mechanism taking place and which healing process contributed to how much of the healing, and this review could serve as an informative platform for these pursues.
Factors influencing self-healing mechanisms of cementitious materials: A review
Mohamed, Abdulahi (Autor:in) / Zhou, Yonghui (Autor:in) / Bertolesi, Elisa (Autor:in) / Liu, Mengmei (Autor:in) / Liao, Feiyu (Autor:in) / Fan, Mizi (Autor:in)
25.04.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
| British Library Online Contents | 2012
Self-healing cementitious materials: a review of recent work
| Online Contents | 2011