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Finite Element Analysis of Dental Implants with Zirconia Crown Restorations: Conventional Cement-Retained vs. Cementless Screw-Retained

Jae‐Hyun Lee, Ho yeol Jang, Su‐Young Lee

2021Materials36 citationsDOIOpen Access PDF

Abstract

The present study was designed to compare the stress distributions in two restoration types of implants and the surrounding bone. The first restoration type was a conventional cement-retained zirconia crown, and the second was a novel cementless screw-retained zirconia crown with a base abutment. A three-dimensional finite element method was used to model the implants, restorations, and supporting bone. A comparative study of the two implants was performed under two masticatory loads: a vertical load of 100 N and a 30-degree oblique load of 100 N. Under both loading conditions, the maximum von Mises stress and strain values in the implant and supporting bone were higher in the conventional cement-retained restoration model than in the cementless screw-retained model. In terms of stress distribution, the cementless screw-retained zirconia crown with base abutment may be considered a superior restoration option compared to the conventional cement-retained zirconia crown.

Topics & Concepts

Crown (dentistry)Materials scienceAbutmentCubic zirconiavon Mises yield criterionCementFinite element methodDentistryComposite materialDental cementOrthodonticsStructural engineeringCeramicMedicineEngineeringAdhesiveLayer (electronics)Dental materials and restorationsDental Implant Techniques and OutcomesBone Tissue Engineering Materials
Finite Element Analysis of Dental Implants with Zirconia Crown Restorations: Conventional Cement-Retained vs. Cementless Screw-Retained | Litcius