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Mechanical and thermal stress analysis of hybrid ceramic and lithium disilicate based ceramic CAD-CAM inlays using 3-D finite element analysis

Authors

  • Sameh Mahmoud Nabih 1- Operative dentistry and Vice dean for post graduate students, Faculty of Dental Medicine, Al–Azhar University (boys-Cairo).
  • Nady Ibrahim Mohamed Ibrahim Operative Dentistry Department, Faculty of Oral and Dental Medicine, Al–Azhar University.
  • Ahmed Ramadan Elmanakhly 3 - Operative Dentistry Department, Faculty of Oral and Dental Medicine, Al–Azhar University (boys-Cairo).

DOI:

https://doi.org/10.14295/bds.2021.v24i3.2453

Abstract

Objectives: The aim of this study was to analyze mechanical and thermal stresses of hybrid ceramic and lithium disilicate based ceramic of CAD/CAM inlays using 3D Finite element analysis. Material and Methods: A three dimensions finite element model of permanent maxillary premolar designed according to standard anatomy with class II cavity preparation for inlay restored with two different ceramic materials:- 1- Hybrid ceramic (Vita Enamic), 2- Lithium disilicate based ceramic (IPS e.max CAD). Totally six runs were performed on the model as: One loading case for each restorative material was tested in stress analysis; seven points of loading with 140N vertically applied at palatal cusp tip and cusp slop, marginal ridges and central fossa while the models base was fixed as a boundary condition in the two cases. Two thermal analysis cases were performed for each restoration material by applying 5ºC and 55ºC on the crown surface including the restoration surface. Results: The results of all structures were separated from the rest of the model to analyze the magnitude of stress in each component. For each group, maximum stresses on restorative materials, cement, enamel, and dentin were evaluated separately. Both ceramic materials generated similar stress distribution patterns for all groups when a total occlusal load of 140 N was applied. Conclusion: Thermal fluctuations of temperature have a great influence on the stresses induced on both restoration and tooth structure. IPS e.max CAD produced more favorable stresses on the tooth structure than Vita Enamic.

 

KEYWORDS

Ceramics; Finite element analysis; IPS e.max CAD; Lithium disilicate;  Vita Enamic.

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— Updated on 2021-07-01

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Clinical or Laboratorial Research