Three-dimensional finite element analysis of stress distribution on short implants with different bone conditions and osseointegration rates

Abstract: Objective This experiment aimed to investigate the effects of bone conditions and osseointegration rates on the stress distribution of short implants using finite element analysis and also to provide some reference for the application of short implants from a biomechanical prospect. Materials and methods Anisotropic jaw bone models with three bone conditions and 4.1 × 6 mm implant models were created, and four osseointegration rates were simulated.… Show more

“…The distribution of stress is directly associated with the unique geometry and design of the dental implant. This observation aligns with the findings of Yang et al [39], who illustrated that the highest concentration of stress occurs at the point of contact with the implant.…”

Exploring Stresses in Mandibular Jawbone during Implant Insertion: A Three-Dimensional Explicit Dynamic Analysis

“…The distribution of stress is directly associated with the unique geometry and design of the dental implant. This observation aligns with the findings of Yang et al [39], who illustrated that the highest concentration of stress occurs at the point of contact with the implant.…”

Exploring Stresses in Mandibular Jawbone during Implant Insertion: A Three-Dimensional Explicit Dynamic Analysis

Computational modelling and analysis of hard tissue behavior around 0.5 mm and 0.85 mm platform switched abutment using 3D finite element analysis

Simulation of a novel surgical approach to perianal abscesses using three-dimensional finite element method