Publication detail
Modelling of fracture in brittle solids using FEM and finite fracture mechanics
ŠEVEČEK, O. KOTOUL, M. LEGUILLON, D. MARTIN, É. BERMEJO, R.
English title
Modelling of fracture in brittle solids using FEM and finite fracture mechanics
Type
article in a collection out of WoS and Scopus
Language
en
Original abstract
The contribution deals with modelling and prediction of fracture in ceramic materials combining finite element analysis and finite fracture mechanics using the coupled stress-energy criterion. It is hypothesized that cracking in brittle materials is originated when both the stress and the energy conditions are fulfilled simultaneously. Various fracture related problems applied to layered ceramics are analyzed and compared with experimental observations to assess the validity of the coupled criterion.
English abstract
The contribution deals with modelling and prediction of fracture in ceramic materials combining finite element analysis and finite fracture mechanics using the coupled stress-energy criterion. It is hypothesized that cracking in brittle materials is originated when both the stress and the energy conditions are fulfilled simultaneously. Various fracture related problems applied to layered ceramics are analyzed and compared with experimental observations to assess the validity of the coupled criterion.
Keywords in English
Laminated Composites; Crack Arrest; Ceramics
Released
30.06.2017
Location
Greece
Volume
2
Number
2017
Pages from–to
928–929
Pages count
2
BIBTEX
@inproceedings{BUT170069,
author="Oldřich {Ševeček} and Michal {Kotoul} and Dominique {Leguillon} and Éric {Martin} and Raul {Bermejo},
title="Modelling of fracture in brittle solids using FEM and finite fracture mechanics",
year="2017",
volume="2",
number="2017",
month="June",
pages="928--929",
address="Greece"
}