Fatigue life assessment of endodontic instruments subjected to multi planar curvature


Autoria(s): Lóios, Gonçalo Ramos dos
Contribuinte(s)

Martins, Rui F.

Data(s)

27/04/2016

27/04/2016

01/09/2015

01/04/2016

Resumo

This present study aimed to investigate the fatigue life of unused (new) endodontic instruments made of NiTi with control memory by Coltene™ and subjected to the multi curvature of a mandibular first molar root canal. Additionally, the instrument‟s structural behaviour was analysed through non-linear finite element analysis (FEA). The fatigue life of twelve Hyflex™ CM files was assessed while were forced to adopt a stance with multiple radius of curvature, similar to the ones usually found in a mandibular first molar root canal; nine of them were subjected to Pecking motion, a relative movement of axial type. To achieve this, it was designed an experimental setup with the aim of timing the instruments until fracture while worked inside a stainless steel mandibular first molar model with relative axial motion to simulate the pecking motion. Additionally, the model‟s root canal multi-curvature was confirmed by radiography. The non-linear finite element analysis was conducted using the computer aided design software package SolidWorks™ Simulation, in order to define the imposed displacement required by the FEA, it was necessary to model an endodontic instrument with simplified geometry using SolidWorks™ and subsequently analyse the geometry of the root canal CAD model. The experimental results shown that the instruments subjected to pecking motion displayed higher fatigue life values and higher lengths of fractured tips than those with only rotational relative movement. The finite element non-linear analyses shown, for identical conditions, maximum values for the first principal stress lower than the yield strength of the material and those were located in similar positions to the instrument‟s fracture location determined by the experimental testing results.

Identificador

http://hdl.handle.net/10362/17114

Idioma(s)

eng

Direitos

openAccess

Palavras-Chave #Fatigue life #Endodontic instruments #Root canal with multi curvature #Pecking motion #Laser additive technology #Domínio/Área Científica::Engenharia e Tecnologia::Engenharia Mecânica
Tipo

masterThesis