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J Dent Res Dent Clin Dent Prospects. 2011;5(2): 41-45.
  Abstract View: 790
  PDF Download: 528

Original Article

Comparison of Chamfer and Deep Chamfer Preparation Designs on the Fracture Resistance of Zirconia Core Restorations

Ezatollah Jalalian 1*, Roghayeh Rostami 2, Berivan Atashkar 2

1 Associate Professor, Department of Prosthodontics, Dental School, Islamic Azad University, Tehran, Iran
2 Dentist, Private Practice, Tehran, Iran
*Corresponding Author: Corresponding Author; , Email: dr-e-jalalian@yahoo.com

Abstract

Background and aims. One of the major problems of all-ceramic restorations is their probable fracture under occlusal force. The aim of the present in vitro study was to compare the effect of two marginal designs (chamfer and deep chamfer) on the fracture resistance of all-ceramic restorations, CERCON.

Materials and methods. This in vitro study was carried out with single-blind experimental technique. One stainless steel die with 50’ chamfer finish line design (0.8 mm deep) was prepared using a milling machine. Ten epoxy resin dies were prepared. The same die was retrieved and 50' chamfer was converted into a deep chamfer design (1 mm). Again ten epoxy resin dies were prepared from the deep chamfer die. Zirconia cores with 0.4 mm thickness and 35 µm cement space were fabricated on the epoxy resin dies (10 chamfer and 10 deep chamfer samples). The zirconia cores were cemented on the epoxy resin dies and underwent a fracture test with a universal testing machine and the samples were investigated from the point of view of the origin of the failure.

Results. The mean values of fracture resistance for deep chamfer and chamfer samples were 1426.10±182.60 and 991.75±112.00 N, respectively. Student’s t-test revealed statistically significant differences between the groups.

Conclusion. The results indicated a relationship between the marginal design of zirconia cores and their fracture resistance. A deep chamfer margin improved the biomechanical performance of posterior single zirconia crown restorations, which might be attributed to greater thickness and rounded internal angles in deep chamfer margins.

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Submitted: 08 Feb 2011
Accepted: 17 May 2011
ePublished: 26 Jun 2017
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