Publication detail
Crack behaviour in laminar ceramics with strong interfaces
NÁHLÍK, L. ŠESTÁKOVÁ, L. HUTAŘ, P.
Czech title
Chování trhliny ve vrstevnaté keramice se silnými rozhraními
English title
Crack behaviour in laminar ceramics with strong interfaces
Type
journal article - other
Language
en
Original abstract
The paper deals with crack propagation in ceramic laminates. The change of crack propagation direction at the material interface is estimated on the base of the strain energy density factor and maximum tangential stress criteria. It can be concluded that good agreement between the estimated crack path and experimental data was found.
Czech abstract
Článek se zabývá šířením trhliny ve vrstevnaté keramice. Zm?na ší?ení trhliny na materiálovém rozhraní je odhadována na základ? faktoru hustoty deforma?ní energie a MTS kritéria. Byla pozorována dobrá shoda mezi odhadnutou trajektorií ší?ící se trhliny a experimentáln? zjišt?nými daty.
English abstract
The paper deals with crack propagation in ceramic laminates. The change of crack propagation direction at the material interface is estimated on the base of the strain energy density factor and maximum tangential stress criteria. It can be concluded that good agreement between the estimated crack path and experimental data was found.
Keywords in Czech
keramický laminát, směr šíření trhliny, residuální napětí
Keywords in English
ceramic laminate, crack propagation direction, residual stress, flaw tolerant ceramic
RIV year
2009
Released
22.06.2009
Publisher
Trans Tech Publications Ltd
Location
Switzerland
ISSN
1013-9826
Journal
Key Engineering Materials
Volume
417-418
Number
417-418
Pages from–to
301–304
Pages count
4
BIBTEX
@article{BUT49610,
author="Luboš {Náhlík} and Lucie {Malíková} and Pavel {Hutař},
title="Crack behaviour in laminar ceramics with strong interfaces",
journal="Key Engineering Materials",
year="2009",
volume="417-418",
number="417-418",
month="June",
pages="301--304",
publisher="Trans Tech Publications Ltd",
address="Switzerland",
issn="1013-9826"
}