3D Dislocation Dynamics: Difference between revisions
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===Crack initiation in fatigue: experiments and three-dimensional dislocation simulations=== |
===Crack initiation in fatigue: experiments and three-dimensional dislocation simulations=== |
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* C.Depres, C.F.Robertson, M.C.Fivel [[media:fivel1.2.pdf|pdf]] |
* C.Depres, C.F.Robertson, M.C.Fivel Materials Science and Engineering A 387-389 (2004) 288-291 [[media:fivel1.2.pdf|pdf]] |
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===discrete dislocation dynamics: an important recent break-through in the modeling of dislocation collective behavior=== |
===discrete dislocation dynamics: an important recent break-through in the modeling of dislocation collective behavior=== |
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* Marc C. Fivel C.R.Physique 9 (2008) 427-436 [[media:fivel1.4.pdf|pdf]] |
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===Dislocation dynamics simulations of fatigue of precipitation-hardened materials=== |
===Dislocation dynamics simulations of fatigue of precipitation-hardened materials=== |
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* C.S.Shin, M.C.Fivel, M.Verdier, C.Robertson Materials Science and Engineering A 400-401 (05) 166-169 [[media:fivel3.pdf|pdf]] |
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===Numerical methods to improve the computing efficiency of discrete dislocation dynamics simulations=== |
===Numerical methods to improve the computing efficiency of discrete dislocation dynamics simulations=== |
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* C.S.Shin, M.C.Fivel, M. Verdier, S.C.Kwon, Journal of Computational Physics 215 (2006) 417-429 [[media:fivel1.5.pdf|pdf]] |
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==Zbib Group== |
==Zbib Group== |
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===Dislocation-Cracks Interaction During Fatigue: A Discrete Dislocation Dynamics Simulation=== |
===Dislocation-Cracks Interaction During Fatigue: A Discrete Dislocation Dynamics Simulation=== |
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* I.N.Mastorakos and H.M.Zibb, Multiscale Approaches to Fatigue and Fracture, 2008 April [[media:zbib2.1.pdf|pdf]] |
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*F.Akasheh and H.M.Zbib et al, Journal of Applied Physics 101.084314 (2007) [[media:zbib2.2.pdf|pdf]] |
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==Ghoniem Group== |
==Ghoniem Group== |
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===Computer Simulaltion of Dislocation Pattern Formation=== |
===Computer Simulaltion of Dislocation Pattern Formation=== |
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*N.M.Ghoniem and R.Amodeo, Solid State Phenomena Vol.384 (1988) pp. 377-388 [[media:Ghoniem3.1.pdf|pdf]] |
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Latest revision as of 05:08, 4 November 2009
Literature Study of Fatigue 3D DD simulation
Fivel Group
A dislocation-based model for low-amplitude fatigue behavior or face-centered cubic single crystal
- C. Depres, M.Fivel and L.Tabourot, Scripta Materialia 58(2008)1086-1089 pdf
Crack initiation in fatigue: experiments and three-dimensional dislocation simulations
- C.Depres, C.F.Robertson, M.C.Fivel Materials Science and Engineering A 387-389 (2004) 288-291 pdf
discrete dislocation dynamics: an important recent break-through in the modeling of dislocation collective behavior
- Marc C. Fivel C.R.Physique 9 (2008) 427-436 pdf
Dislocation dynamics simulations of fatigue of precipitation-hardened materials
- C.S.Shin, M.C.Fivel, M.Verdier, C.Robertson Materials Science and Engineering A 400-401 (05) 166-169 pdf
Numerical methods to improve the computing efficiency of discrete dislocation dynamics simulations
- C.S.Shin, M.C.Fivel, M. Verdier, S.C.Kwon, Journal of Computational Physics 215 (2006) 417-429 pdf
Zbib Group
Dislocation-Cracks Interaction During Fatigue: A Discrete Dislocation Dynamics Simulation
- I.N.Mastorakos and H.M.Zibb, Multiscale Approaches to Fatigue and Fracture, 2008 April pdf
Dislocation dynamics analysis of dislocation intersections in nanoscale metallic multilayered composites
- F.Akasheh and H.M.Zbib et al, Journal of Applied Physics 101.084314 (2007) pdf
Ghoniem Group
Computer Simulaltion of Dislocation Pattern Formation
- N.M.Ghoniem and R.Amodeo, Solid State Phenomena Vol.384 (1988) pp. 377-388 pdf