Publication detail
Numerical Modelling of Cylindrical Specimen under Mixed-Mode Loading Conditions
SLÁVIK, O. HUTAŘ, P. BERER, M. GOSCH, A. ARBEITER, F. PINTER, G. NÁHLÍK, L.
English title
Numerical Modelling of Cylindrical Specimen under Mixed-Mode Loading Conditions
Type
journal article in Scopus
Language
en
Original abstract
Mixed mode loaded fatigue specimens are not used very frequently. The main reason is that there are still very few qualitative results, which would help with better understanding of how the mode II and mode III are affecting the overall crack propagation. On the other hand, there is considerable number of parts loaded in mixed mode. Studying fatigue failure of roller bearing elements made of polymer material was a motivation to design a new experimental specimen for study of fatigue behaviour of the material loaded in mixed mode. The contribution presents developed FEM model of such specimen with focus on determination of fracture mechanics parameters of propagating cracks.
English abstract
Mixed mode loaded fatigue specimens are not used very frequently. The main reason is that there are still very few qualitative results, which would help with better understanding of how the mode II and mode III are affecting the overall crack propagation. On the other hand, there is considerable number of parts loaded in mixed mode. Studying fatigue failure of roller bearing elements made of polymer material was a motivation to design a new experimental specimen for study of fatigue behaviour of the material loaded in mixed mode. The contribution presents developed FEM model of such specimen with focus on determination of fracture mechanics parameters of propagating cracks.
Keywords in English
Failure of Polymer Bearings, Fracture Mechanics, Mixed Mode, Numerical Modelling
Released
01.08.2018
Publisher
Trans Tech Publications Ltd
ISSN
1013-9826
Volume
774
Number
2018
Pages from–to
325–330
Pages count
6
BIBTEX
@article{BUT151145,
author="Ondrej {Slávik} and Pavel {Hutař} and Gerald {Pinter} and Luboš {Náhlík},
title="Numerical Modelling of Cylindrical Specimen under Mixed-Mode Loading Conditions",
year="2018",
volume="774",
number="2018",
month="August",
pages="325--330",
publisher="Trans Tech Publications Ltd",
issn="1013-9826"
}