Detail publikace
Analysis of multiple cracks in thin coating on orthotropic substrate under mechanical and residual stresses.
KOTOUL, M. ŠEVEČEK, O. PROFANT, T.
Český název
Analysis of multiple cracks in thin coating on orthotropic substrate under mechanical and residual stresses.
Anglický název
Analysis of multiple cracks in thin coating on orthotropic substrate under mechanical and residual stresses
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
The analysis addresses a typical failure development pattern in thin films consisting of a system of multiple surface cracks leading to and branching along or near the interface between the film and the base material. The process is driven by thermal residual stresses and/or mechanical loading.
Český abstrakt
The analysis addresses a typical failure development pattern in thin films consisting of a system of multiple surface cracks leading to and branching along or near the interface between the film and the base material. The process is driven by thermal residual stresses and/or mechanical loading.
Anglický abstrakt
The analysis addresses a typical failure development pattern in thin films consisting of a system of multiple surface cracks leading to and branching along or near the interface between the film and the base material. The process is driven by thermal residual stresses and/or mechanical loading.
Klíčová slova česky
Multiple cracks, Surface layer, Interface,Thermal stresses, Matched asymptotic expansions, Reciprocal theorem
Klíčová slova anglicky
Multiple cracks, Surface layer, Interface,Thermal stresses, Matched asymptotic expansions, Reciprocal theorem
Rok RIV
2009
Vydáno
14.07.2009
ISSN
0013-7944
Ročník
77
Číslo
2
Strany od–do
229–248
Počet stran
20
BIBTEX
@article{BUT47786,
author="Michal {Kotoul} and Oldřich {Ševeček} and Tomáš {Profant},
title="Analysis of multiple cracks in thin coating on orthotropic substrate under mechanical and residual stresses",
year="2009",
volume="77",
number="2",
month="July",
pages="229--248",
issn="0013-7944"
}