Clinics (Mar 2019)

Morse taper performance: A finite element analysis study

  • Gustavo Passarelli Petris,
  • João Paulo De Carli,
  • Luiz Renato Paranhos,
  • Pâmela Letícia Santos,
  • Paula Benetti,
  • Marcio Walber,
  • Eduardo Sandini Linden,
  • Maria Salete Sandini Linden

DOI
https://doi.org/10.6061/clinics/2019/e852
Journal volume & issue
Vol. 74, no. 0

Abstract

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OBJECTIVES: To evaluate and compare the magnitude and distribution of stresses generated on implants, abutments and first molar metal-ceramic crowns using finite element analysis. METHODS: Preliminary three-dimensional models were created using the computer-aided design software SolidWorks. Stress and strain values were observed for two distinct virtual models: model 1 - Morse taper and solid abutment; model 2 - Morse taper and abutment with screw. A load (250 N) was applied to a single point of the occlusal surface at 15° to the implant long axis. Von Mises stresses were recorded for both groups at four main points: 1) abutment-retaining screws; 2) abutment neck; 3) cervical bone area; 4) implant neck. RESULTS AND CONCLUSION: Model 1 showed a higher stress value (1477.5 MPa) at the abutment-retaining screw area than the stresses found in model 2 (1091.1 MPa for the same area). The cervical bone strain values did not exceed 105 µm for either model.

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