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Please use this identifier to cite or link to this item: http://hdl.handle.net/2108/622

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contributor.authorRoubicek, Tomas-
contributor.authorTomassetti, Giuseppe-
date.accessioned2008-09-07T10:49:57Z-
date.available2008-09-07T10:49:57Z-
date.issued2008-09-07T10:49:57Z-
identifier.urihttp://hdl.handle.net/2108/622-
descriptionSubmitted to ZAMPen
description.abstractPhase transformation in shape-memory alloys is known to cause electric resistivity variation that, under electric current, may conversely influence Joule heat production and thus eventually the martensitic transformation itself. A thermodynamically consistent general continuum-mechanical model at large strains is presented. In special cases, a proof of the existence of a weak solution is outlined, using a semidiscretization in time.en
description.sponsorshipEuropean project MRTN-CT-2004-505226 “Multi-scale modelling and characterisation for phase transformations in advanced materials”. “Necas center for mathematical modeling” LC 06052 (MSMT CR). Project “Modellazione fisico-matematica dei continui elettro-attivi” (INdAM-GNFM, Italy). Grants A 107 5402 (GA AV CR) MSM 21620839 and 1M06031 (MSMT CR), 201/06/0352 (GA CR). Research plan AV0Z20760514 (CR)en
format.extent290559 bytes-
format.mimetypeapplication/pdf-
language.isoenen
subjectGeneralized standard materialsen
subjectHeat equationen
subjectJoule heaten
subjectElectrically-conductive mediaen
subjectMartensitic transformationen
subjectWeak solutionen
titleThermodynamics of shape-memory alloys under electric currenten
typeAgendaen
Appears in Collections:Research studies

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