modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf

modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf

Martensite forms under rapid cooling of austenitic grains accompanied by a change of the crystal lattice. Large deformations are induced which lead to plastic dislocations. In this work a transformation model based on the sharp interface theory, set in a finite strain context is developed. Crystal p...

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Λεπτομέρειες βιβλιογραφικής εγγραφής
Γλώσσα:English
Έκδοση: KIT Scientific Publishing 2021
id oapen-20.500.12657-48836
record_format dspace
spelling oapen-20.500.12657-488362021-05-28T00:58:04Z Modeling martensitic phase transformation in dual phase steels based on a sharp interface theory Ruck, Johannes Martensit Phasentransformation sharp interface Kinetik martensite phase transformation kinetic bic Book Industry Communication::T Technology, engineering, agriculture::TG Mechanical engineering & materials Martensite forms under rapid cooling of austenitic grains accompanied by a change of the crystal lattice. Large deformations are induced which lead to plastic dislocations. In this work a transformation model based on the sharp interface theory, set in a finite strain context is developed. Crystal plasticity effects, the kinetic of the singular surface as well as a simple model of the inheritance from austenite dislocations into martensite are accounted for. 2021-05-27T09:28:32Z 2021-05-27T09:28:32Z 2021 book ONIX_20210527_9783731510727_33 1614-3914 9783731510727 https://library.oapen.org/handle/20.500.12657/48836 eng Schriftenreihe Kontinuumsmechanik im Maschinenbau application/pdf n/a modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf KIT Scientific Publishing 10.5445/KSP/1000128076 10.5445/KSP/1000128076 44e29711-8d53-496b-85cc-3d10c9469be9 9783731510727 16 222 Karlsruhe open access
institution OAPEN
collection DSpace
language English
description Martensite forms under rapid cooling of austenitic grains accompanied by a change of the crystal lattice. Large deformations are induced which lead to plastic dislocations. In this work a transformation model based on the sharp interface theory, set in a finite strain context is developed. Crystal plasticity effects, the kinetic of the singular surface as well as a simple model of the inheritance from austenite dislocations into martensite are accounted for.
title modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
spellingShingle modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
title_short modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
title_full modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
title_fullStr modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
title_full_unstemmed modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
title_sort modeling-martensitic-phase-transformation-in-dual-phase-steels-based-on-a-sharp-interface-theory.pdf
publisher KIT Scientific Publishing
publishDate 2021
_version_ 1771297607484702720

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