Mesoscale Modeling Study on Mechanical Deterioration of Alkali–Aggregate Reaction-Affected Concrete

Abstract: The alkali–aggregate reaction (AAR) is a harmful chemical reaction that reduces the mechanical properties and weakens the durability of concrete. Different types of activated aggregates may result in various AAR modes, which affect the mechanical deterioration of concrete. In this paper, the aggregate expansion model and the gel pocket model are considered to represent the two well-recognized AAR modes. The mesoscale particle model of concrete was presented to model the AAR expansion process and the splitting … Show more

“…From the perspective of the research object, the mesoscale model of concrete has been widely applied to study the mechanical performance [25] and durability of concrete [26][27][28][29][30][31], including crack initiation and propagation, and chloride-induced degradation. Jin et al [32] proposed the law of static and dynamic uniform size effects by building mesoscale models of concrete.…”

Review of Mesoscale Geometric Models of Concrete Materials

“…From the perspective of the research object, the mesoscale model of concrete has been widely applied to study the mechanical performance [25] and durability of concrete [26][27][28][29][30][31], including crack initiation and propagation, and chloride-induced degradation. Jin et al [32] proposed the law of static and dynamic uniform size effects by building mesoscale models of concrete.…”

Review of Mesoscale Geometric Models of Concrete Materials

Life-cycle dynamic analysis and probabilistic seismic risk assessment of cross-fault hydraulic tunnels considering AAR-induced deterioration

Endurance time history analysis of the seismic behavior and performance assessment of hydro-chemo-mechanical degradation-affected hydraulic tunnels with service time