Publication detail
3D Atomistic Simulation of Fatigue Behavior of a Ductile Crack in BCC Iron loaded in mode II
UHNÁKOVÁ, A. POKLUDA, J. MACHOVÁ, A. HORA, P.
Czech title
3D atomové simulace únavových vlastností tvárné trhliny v železe BCC zatíženém v módu II
English title
3D Atomistic Simulation of Fatigue Behavior of a Ductile Crack in BCC Iron loaded in mode II
Type
journal article in Web of Science
Language
en
Original abstract
We present new results of 3D molecular dynamic (MD) simulations of a mechanical response of an edge crack [110] (crack plane/crack front) in a single crystal of bcc iron cyclically loaded in mode II at room temperature and 0 K under different boundary conditions. Our previous 3D molecular dynamic simulations showed that this crack under monotonic uniaxial tension loading in mode I emitted blunting dislocations in the inclined slip systems and it was stable up to very high loads, in qualitative agreement with experiments and continuum predictions. Our question is how the cyclic loading in mode II changes the crack behaviour and its stability. The paper also brings information on comparison with fatigue behaviour of the crack loaded in mode I and in mode III.
Czech abstract
We present new results of 3D molecular dynamic (MD) simulations of a mechanical response of an edge crack [110] (crack plane/crack front) in a single crystal of bcc iron cyclically loaded in mode II at room temperature and 0 K under different boundary conditions. Our previous 3D molecular dynamic simulations showed that this crack under monotonic uniaxial tension loading in mode I emitted blunting dislocations in the inclined slip systems and it was stable up to very high loads, in qualitative agreement with experiments and continuum predictions. Our question is how the cyclic loading in mode II changes the crack behaviour and its stability. The paper also brings information on comparison with fatigue behaviour of the crack loaded in mode I and in mode III.
English abstract
We present new results of 3D molecular dynamic (MD) simulations of a mechanical response of an edge crack [110] (crack plane/crack front) in a single crystal of bcc iron cyclically loaded in mode II at room temperature and 0 K under different boundary conditions. Our previous 3D molecular dynamic simulations showed that this crack under monotonic uniaxial tension loading in mode I emitted blunting dislocations in the inclined slip systems and it was stable up to very high loads, in qualitative agreement with experiments and continuum predictions. Our question is how the cyclic loading in mode II changes the crack behaviour and its stability. The paper also brings information on comparison with fatigue behaviour of the crack loaded in mode I and in mode III.
Keywords in English
atomistic simulation; fatigue behavior; ductile crack; BCC iron
RIV year
2012
Released
23.03.2012
ISSN
0927-0256
Volume
61
Number
1
Pages from–to
12–19
Pages count
8
BIBTEX
@article{BUT89318,
author="Alena {Uhnáková} and Jaroslav {Pokluda} and Anna {Machová} and Petr {Hora},
title="3D Atomistic Simulation of Fatigue Behavior of a Ductile Crack in BCC Iron loaded in mode II",
year="2012",
volume="61",
number="1",
month="March",
pages="12--19",
issn="0927-0256"
}