Advanced phase-field approach to dislocation evolution
| dc.contributor.author | Levitas, Valery | |
| dc.contributor.author | Javanbakht, Mahdi | |
| dc.contributor.author | Levitas, Valery | |
| dc.contributor.department | Aerospace Engineering | |
| dc.date | 2018-02-13T18:08:17.000 | |
| dc.date.accessioned | 2020-06-29T22:45:46Z | |
| dc.date.available | 2020-06-29T22:45:46Z | |
| dc.date.copyright | Sun Jan 01 00:00:00 UTC 2012 | |
| dc.date.embargo | 2013-11-25 | |
| dc.date.issued | 2012-10-09 | |
| dc.description.abstract | <p>The phase-field approach to dislocations is conceptually advanced. Large strain formulation is developed. A local thermodynamic potential eliminates stress dependence of the Burgers vector and reproduces the desired local stress-strain curve, as well as the desired, mesh-independent, dislocation height for any dislocation orientation. A gradient energy contains an additional term, which excludes localization of dislocation within a height smaller than the prescribed height but does not produce artificial interface energy and dislocation widening. Problems for nucleation and evolution of multiple dislocations along the single and multiple slip systems, and the interaction of dislocations with an austenite (A)-martensite (M) interface are studied using the finite element method. An unexpected scale effect in the athermal resistance to the A-M interface motion due to nucleated incoherency dislocations is revealed.</p> | |
| dc.description.comments | <p>This article is from <em>Physical Review B</em> 86 (2012): 140101(R), doi:<a href="http://dx.doi.org/10.1103/PhysRevB.86.140101" target="_blank">10.1103/PhysRevB.86.140101</a>.</p> | |
| dc.format.mimetype | application/pdf | |
| dc.identifier | archive/lib.dr.iastate.edu/aere_pubs/19/ | |
| dc.identifier.articleid | 1018 | |
| dc.identifier.contextkey | 4852924 | |
| dc.identifier.s3bucket | isulib-bepress-aws-west | |
| dc.identifier.submissionpath | aere_pubs/19 | |
| dc.identifier.uri | https://dr.lib.iastate.edu/handle/20.500.12876/2016 | |
| dc.language.iso | en | |
| dc.source.bitstream | archive/lib.dr.iastate.edu/aere_pubs/19/0-2012_LevitasVI_AdvancedPhaseFieldApproach_VideoCaptions.pdf|||Fri Jan 14 21:48:47 UTC 2022 | |
| dc.source.bitstream | archive/lib.dr.iastate.edu/aere_pubs/19/1-2012_LevitasVI_AdvancedPhaseFieldApproach_video_1.zip|||Fri Jan 14 21:48:46 UTC 2022 | |
| dc.source.bitstream | archive/lib.dr.iastate.edu/aere_pubs/19/2-2012_LevitasVI_AdvancedPhaseFieldApproach_video_2.zip|||Fri Jan 14 21:48:49 UTC 2022 | |
| dc.source.bitstream | archive/lib.dr.iastate.edu/aere_pubs/19/2012_LevitasVI_AdvancedPhaseFieldApproach.pdf|||Fri Jan 14 21:48:50 UTC 2022 | |
| dc.source.bitstream | archive/lib.dr.iastate.edu/aere_pubs/19/3-2012_LevitasVI_AdvancedPhaseFieldApproach_video_3.zip|||Fri Jan 14 21:48:47 UTC 2022 | |
| dc.source.uri | 10.1103/PhysRevB.86.140101 | |
| dc.subject.disciplines | Aerospace Engineering | |
| dc.subject.disciplines | Materials Science and Engineering | |
| dc.subject.disciplines | Mechanical Engineering | |
| dc.subject.keywords | Mechanical Engineering | |
| dc.subject.keywords | Materials Science and Engineering | |
| dc.supplemental.bitstream | 2012_LevitasVI_AdvancedPhaseFieldApproach_VideoCaptions.pdf | |
| dc.supplemental.bitstream | 2012_LevitasVI_AdvancedPhaseFieldApproach_video_1.zip | |
| dc.supplemental.bitstream | 2012_LevitasVI_AdvancedPhaseFieldApproach_video_2.zip | |
| dc.supplemental.bitstream | 2012_LevitasVI_AdvancedPhaseFieldApproach_video_3.zip | |
| dc.title | Advanced phase-field approach to dislocation evolution | |
| dc.type | article | |
| dc.type.genre | article | |
| dspace.entity.type | Publication | |
| relation.isAuthorOfPublication | 850871e3-115a-428e-82cc-cbfafef5cf66 | |
| relation.isOrgUnitOfPublication | 047b23ca-7bd7-4194-b084-c4181d33d95d |
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