A Coupled Biomechanical-Smoothed Particle Hydrodynamics Model for Horse Racing Tracks

Abstract: Distal limb injuries are common in racing horses and track surface properties have been associated with injury risk. To better understand how track surfaces may contribute to equine limb injury, we developed the first 3D computational model of the equine hoof interacting with a racetrack and simulated interactions with model representations of 1) a dirt surface and 2) an all-weather synthetic track. First, a computational track model using the Smoothed Particle Hydrodynamics (SPH) method with a Drucker-Prager … Show more

“…Therefore, consideration of boundary conditions of in silico models is important to achieve better simulation responses. [33][34][35] One such potential boundary condition is ECM behaviour. The present study developed a viscoelastic mathematical model of normal lung ECM.…”

Relaxation and creep response of the alveolar lung to diagnosis and treatments for respiratory and lung disorders

“…Therefore, consideration of boundary conditions of in silico models is important to achieve better simulation responses. [33][34][35] One such potential boundary condition is ECM behaviour. The present study developed a viscoelastic mathematical model of normal lung ECM.…”

Relaxation and creep response of the alveolar lung to diagnosis and treatments for respiratory and lung disorders

Flow and remodeling processes occurring within the body proper