Mohammad Houshmand Khaneghahi
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View article: Enhancing microbial induced calcium carbonate precipitation (MICCP) in self-healing concrete by addressing cell encapsulation: Investigating the impact of exogenous carbonate ions
Enhancing microbial induced calcium carbonate precipitation (MICCP) in self-healing concrete by addressing cell encapsulation: Investigating the impact of exogenous carbonate ions Open
View article: Phase-field modeling of fracture and healing in BioFiber-Reinforced Concrete
Phase-field modeling of fracture and healing in BioFiber-Reinforced Concrete Open
View article: Engineering nature-inspired damage-responsive polymeric fibers (bioFibers) for advanced delivery of microbial-based self-healing agents into cementitious composites
Engineering nature-inspired damage-responsive polymeric fibers (bioFibers) for advanced delivery of microbial-based self-healing agents into cementitious composites Open
The primary goal of this research is to develop an innovative delivery and activation system to establish a robust autonomous self-healing framework in cementitious composites using a multifunctional polymeric-based biotic self-healing fib…
View article: Generation of enhanced endospores for microbially induced calcium carbonate precipitation (MICCP) via thermal shock for concrete self-healing
Generation of enhanced endospores for microbially induced calcium carbonate precipitation (MICCP) via thermal shock for concrete self-healing Open
Endospores are desirable phenotypes in Microbially-Induced Calcium Carbonate Precipitation (MICCP) for their durability in challenging environments. This study investigates the impact of various endosporulation methods on endospore morphol…
View article: Carbonate biomineralization potential of endospore-laden polymeric fibers (BioFibers) for bio-self-healing applications
Carbonate biomineralization potential of endospore-laden polymeric fibers (BioFibers) for bio-self-healing applications Open
This study explores the capacity and kinetics of microbially-induced calcium carbonate precipitation (MICCP) using BioFibers—endospore-laden polymeric fibers. Innovatively developed as a delivery system, BioFibers incorporate a bio-self-he…
View article: Development of bio-inspired multi-functional polymeric-based fibers (BioFiber) for advanced delivery of bacterial-based self-healing agent in concrete
Development of bio-inspired multi-functional polymeric-based fibers (BioFiber) for advanced delivery of bacterial-based self-healing agent in concrete Open
The goal of this research is to develop innovative damage-responsive bacterial-based self-healing fibers (hereafter called BioFiber) that can be incorporated into concrete to enable two functionalities simultaneously: (1) crack bridging fu…
View article: Fracture Analysis of Multifunctional Fiber-Reinforced Concrete Using Phase-Field Method
Fracture Analysis of Multifunctional Fiber-Reinforced Concrete Using Phase-Field Method Open
View article: Understanding the importance of endosporulation methods for generating endospores that can resist harsh conditions and produce calcite in bio self-healing of concrete
Understanding the importance of endosporulation methods for generating endospores that can resist harsh conditions and produce calcite in bio self-healing of concrete Open
Vegetative cells used for the concrete bio self-healing process often face threatening environmental conditions such as extreme temperature, pH, salinity, shear stress, and starvation during the hardening process and the service life of th…