The Effect of Inner Friction on Concrete Fracture Behavior under Biaxial Compression: A 3D Mesostructure Study

Abstract: The mechanical behavior of concrete under biaxial loading condition (especially biaxial compression) is one of the most important indexes to evaluate the quality of concrete. To study the mechanical behavior of concrete under biaxial compression at mesoscale, we adopted our recently developed 3D numerical model based on Voronoi tessellation and cohesive elements. A constitutive model considering the friction effect is used in the model to characterize the fracture behavior of all potential fracture surfaces in… Show more

“…In contrast, the image-independent method is known as a computational cost-effective methodology with more producibility and less restriction of real samples [33]. Nevertheless, the actual aggregate shape was disregarded by using the simplified geometry in many previous models [2,15,[34][35][36][37][38][39].…”

Meso-scale modelling of compressive fracture in concrete with irregularly shaped aggregates

“…In contrast, the image-independent method is known as a computational cost-effective methodology with more producibility and less restriction of real samples [33]. Nevertheless, the actual aggregate shape was disregarded by using the simplified geometry in many previous models [2,15,[34][35][36][37][38][39].…”

Meso-scale modelling of compressive fracture in concrete with irregularly shaped aggregates

3D meso-scale modelling of tensile and compressive fracture behaviour of steel fibre reinforced concrete

Meso-scale computational modeling of the fracture of concrete with complex shaped aggregates under the self-restraint stress