Mathematical Modeling and Digital Simulation of Teeth Dynamics for the Approximation of Orthodontic Treatment Duration

Abstract: The paper presents an original solution for modeling and simulation of the teeth movement biomedical processes which occur in the case of orthodontic treatments. The direct application of this method consists in the possibility to approximate, with high precision, the orthodontic treatment duration, depending on the physical characteristics of each patient. This aspect represents a novelty element in the biomedical processes’ domain since, until now, the research activities in the mentioned field did not gener… Show more

“…This means that the use of the deformational failure criterion with SPH particle conversion is correct in the context of mapping the behavior of materials used in biomedical practice. In many existing studies [33][34][35][36][37], the authors have focused on conducting numerical analysis in static ranges without taking into account fracture mechanics. This has allowed for the prediction of stresses occurring in simplified conditions, but cannot predict, for example, the development of cracks.…”

Mechanical and Material Analysis of 3D-Printed Temporary Materials for Implant Reconstructions—A Pilot Study

“…This means that the use of the deformational failure criterion with SPH particle conversion is correct in the context of mapping the behavior of materials used in biomedical practice. In many existing studies [33][34][35][36][37], the authors have focused on conducting numerical analysis in static ranges without taking into account fracture mechanics. This has allowed for the prediction of stresses occurring in simplified conditions, but cannot predict, for example, the development of cracks.…”

Mechanical and Material Analysis of 3D-Printed Temporary Materials for Implant Reconstructions—A Pilot Study