Background and Objectives: This numerical analysis investigated the biomechanical
behavior of the mandibular bone as a structure subjected to 0.5 N of orthodontic force during …

This Finite Elements Analysis (FEA) assessed the accuracy of Tresca failure criteria
(maximum shear stress) for the study of external root resorption. Additionally, the tooth …

Featured Application Patients suffering from various levels of periodontal breakdown show
increased problems related to the amount of orthodontic force (usually light) needed to be …

The purpose of this study was to investigate the functional load capacity of the periodontal
ligament (PDL) in a full arch maxilla and mandible model using a numerical simulation. The …

Featured Application For an orthodontist practitioner, quantification of the absorption–
dissipation ability of dental tissues is of extreme importance since there is a constant danger …

Background and Objectives: Herein we used numerical analysis to study different
biomechanical behaviors of mandibular bone subjected to 0.6 N, 1.2 N, and 2.4 N …

This finite elements analysis (FEA) assessed the accuracy of maximum shear stress criteria
(Tresca) in the study of orthodontic internal surface resorption and the absorption …

Objectives This study utilized non-linear finite element (FE) models to explore
polymerization shrinkage and its impact on marginal integrity in molars following both …

Background This paper aims to indicate numerically the accurate porosity used for dental
implants, following the emphasis on the preference for titanium foam on pure titanium …

Background and Objectives: Most orthodontic forces are absorbed–dissipated before
reaching the dental pulp and its neuro-vascular bundle (NVB); however, no data are …