SciELO - Scientific Electronic Library Online

vol.30 issue2Determination of TNF-a Gene Polymorphisms on Skeletal Pattern in Class II MalocclusionSurface Topography, Gloss and Flexural Strength of Pressable Ceramic After Finishing-Polishing Protocols author indexsubject indexarticles search
Home Pagealphabetic serial listing  

Services on Demand




Related links


Brazilian Dental Journal

Print version ISSN 0103-6440On-line version ISSN 1806-4760


MELO FILHO, Antonio Braulino de et al. Failure Probability, Stress Distribution and Fracture Analysis of Experimental Screw for Micro Conical Abutment. Braz. Dent. J. [online]. 2019, vol.30, n.2, pp.157-163.  Epub Apr 04, 2019. ISSN 0103-6440.

The aim of this study was to evaluate the failure probability of two types of abutment screws after compressive load and to analyze the stress distribution with finite element method. Sixty (60) single-tooth implant restorations were assembled on titanium implants (e-fix, A.S. Technology - Titanium Fix). The groups were divided into Conventional screw (Screw neck 1.5 ø mm) and Experimental screw (Screw neck constricted with 1.2 ø mm). Specimens were subjected to single load to failure with compressive test according ISO 14801. The fractured specimens were subjected to stereomicroscopy for measurement of remaining screws inside the implant and characterization of fracture origin. Representative specimens were analyzed by scanning electronic microscopy. For finite element method (FEM), an identical 3D model of the two in vitro test groups were used with similar conditions (30º, 100 N load). The stress in the abutment screw was analyzed by von-Mises criteria. The results of strength means were 4132.5 ± 76 MPa and 4528.2 ± 127.2 for conventional and experimental groups, respectively. During microscopy, the mean (mm) of the remaining screw piece inside the implants were 0.97 ± 0.23 and 1.32 ± 0.12 for conventional and experimental groups, respectively. In FEM, the conventional group showed stress concentered in an unfavorable region (peak of 39.23 MPa), while the experimental group showed more stress areas but less concentration than the conventional group (36.6 MPa). In using the tested experimental geometry, the abutment screw can have its strength improved, and the origin of failure can be more favorable to clinical resolution.

Keywords : finite element analyses; dental implant; abutment screw loosening; Weibull analysis.

        · abstract in Portuguese     · text in English     · English ( pdf )