Evaluation of the Compatibility of Modified Encapsulated Sodium Silicate for Self-Healing of Cementitious Composites

Abstract: Healing agent carriers play a significant role in defining the performance of the autonomous self-healing system. Particularly, the ability to survive during the mixing process and the release of the healing agent when cracks occur without affecting the mechanical properties of the cementitious composite. Up to now, these issues are still a concern since glass capsules are unable to survive the mixing process, while some types of microcapsules were reported to cause a decrement in strength as well as limited s… Show more

“…In biotechnological SHC, the most commonly used microorganism tends to be the genus of bacillus due to its ability of withstanding the harsh concrete environment [25]. Moreover, studies have found that a bacteria concentration of 10 5 colony-forming unit (cfu)/mL is recommended for improving concrete properties reporting enhanced mechanical properties and durability as well as strength recovery [26][27][28][29][30]. Another potentially viable yet less explored alternative to bacteria is fungi showing healing mechanisms comparable to the former microorganism [19][20][21].…”

Low-Carbon Self-Healing Concrete: State-of-the-Art, Challenges and Opportunities

“…In biotechnological SHC, the most commonly used microorganism tends to be the genus of bacillus due to its ability of withstanding the harsh concrete environment [25]. Moreover, studies have found that a bacteria concentration of 10 5 colony-forming unit (cfu)/mL is recommended for improving concrete properties reporting enhanced mechanical properties and durability as well as strength recovery [26][27][28][29][30]. Another potentially viable yet less explored alternative to bacteria is fungi showing healing mechanisms comparable to the former microorganism [19][20][21].…”

Low-Carbon Self-Healing Concrete: State-of-the-Art, Challenges and Opportunities

Enhanced autogeneous self-healing of MgO blended composites incorporating with silica fume

Evaluation and characterization of autonomous self-healing cementitious materials with low carbon footprint using hybrid organic/inorganic microcapsules