6533b871fe1ef96bd12d23c9

RESEARCH PRODUCT

Finite Element Method and Von Mises Investigation on Bone Response to Dynamic Stress with a Novel Conical Dental Implant Connection

Luca FiorilloCesare D’amicoMarco CicciùGabriele CervinoRodolfo MauceriGiacomo Oteri

subject

Dental Stress AnalysisField (physics)Article SubjectComputer sciencemedicine.medical_treatmentFinite Element AnalysisBiomedical EngineeringGeneral Biochemistry Genetics and Molecular BiologyBone and BonesBite ForceStress (mechanics)03 medical and health sciences0302 clinical medicinemedicinevon Mises yield criterionHumansDental implantDental ImplantsGeneral Immunology and Microbiologybusiness.industryR030206 dentistryGeneral MedicineConical surfaceStructural engineeringFinite element methodConnection (mathematics)MedicineDevelopment (differential geometry)Stress Mechanicalbusiness030217 neurology & neurosurgeryFinite Element Method Von Mises Investigation Bone Response Conical Dental Implant ConnectionResearch Article

description

The bioengineering and medical and biomedical fields are ever closer, and they manage to obtain surprising results for the development of new devices. The field of simulations and studies in silica has undergone considerable development in recent years, favoring the advancement of medicine. In this manuscript, a study was carried out to evaluate the force distribution on the implant components (In-Kone® Universal) and on the peri-implant tissues subjected to loading. With the finite element analysis and the Von Mises method, it was possible to evaluate this distribution of forces both at 0 degrees (occlusal force) and at 30 degrees; the applied force was 800 N. The obtained results on this new type of connection and on all the implant components are satisfactory; the distribution of forces appears optimal even on the peri-implant tissues. Surely, studies like this help to obtain ever more performing devices, improving both the clinic and the predictability of rehabilitations.

yearjournalcountryeditionlanguage
2020-01-01
10.1155/2020/2976067http://hdl.handle.net/10447/437576