Study of stress intensification factor generated by milling operations on brittle materials

Milling operation on brittle materials usually introduces defects which can behave as cracks around the notch generated in parts subjected to tension or bending. This study evaluates a case where the Stress Concentration Factor (K(t)) is generated due to the presence of the double notch. The studied...

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Veröffentlicht in:	Tecnologia em Metalurgia, Materiais e Mineracao Materiais e Mineracao, 2011-01, Vol.20110718, p.248-260
Hauptverfasser:	Souza, Leonardo Rozalino, De Carvalho, Eduardo Atem, Teixeira, Julia Py Braga, Rodrigues, Carlan Ribeiro
Format:	Artikel
Sprache:	eng
Schlagworte:	Bending Brittle materials Computer simulation Defects Finite element method Fracture mechanics Mathematical models Notches
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creator	Souza, Leonardo Rozalino De Carvalho, Eduardo Atem Teixeira, Julia Py Braga Rodrigues, Carlan Ribeiro
description	Milling operation on brittle materials usually introduces defects which can behave as cracks around the notch generated in parts subjected to tension or bending. This study evaluates a case where the Stress Concentration Factor (K(t)) is generated due to the presence of the double notch. The studied model is based on a deep U-notch, which appears at the root of a larger circular notch (R(circ) >> r(U)). The Finite Element Method (FEM) had been used to simulate all the studied cases. The K(t) were determined by FEM and compared with values from literature, if they were available, and there was an acceptable agreement, no larger than 6.76%. It was also possible to determine when the semi-circular notch does not exert more influence on the severity of the defect, and the fracture parameters of the material were only controlled by manufacturing defects.
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subjects	Bending Brittle materials Computer simulation Defects Finite element method Fracture mechanics Mathematical models Notches
title	Study of stress intensification factor generated by milling operations on brittle materials
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