Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation

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Zeitschriftentitel:	Materials
Personen und Körperschaften:	Dhinwal, Satyaveer Singh, Toth, Laszlo S
In:	Materials, 13, 2019, 1, S. 101
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	MDPI AG
Schlagwörter:	General Materials Science

author_facet	Dhinwal, Satyaveer Singh Toth, Laszlo S Dhinwal, Satyaveer Singh Toth, Laszlo S
author	Dhinwal, Satyaveer Singh Toth, Laszlo S
spellingShingle	Dhinwal, Satyaveer Singh Toth, Laszlo S Materials Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation General Materials Science
author_sort	dhinwal, satyaveer singh
spelling	Dhinwal, Satyaveer Singh Toth, Laszlo S 1996-1944 MDPI AG General Materials Science http://dx.doi.org/10.3390/ma13010101 <jats:p>The texture evolution is wearing the signature of the deformation path in plastic deformation. In asymmetric rolling, plain strain compression and shear are the main components of the imposed strain. In this work, viscoplastic self-consistent (VPSC) simulations of the texture evolution were used to determine the combination and sequence of the two deformation components. It has been found that the deformation path is composed of two parts in asymmetric rolling: it is first essentially rolling, followed by the simple shear process. Simultaneous rolling and shear process cannot produce the observed textures, while the decomposed simulation can reproduce it faithfully.</jats:p> Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation Materials
doi_str_mv	10.3390/ma13010101
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title	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_unstemmed	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_full	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_fullStr	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_full_unstemmed	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_short	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_sort	unlocking deformation path in asymmetric rolling by texture simulation
topic	General Materials Science
url	http://dx.doi.org/10.3390/ma13010101
publishDate	2019
physical	101
description	<jats:p>The texture evolution is wearing the signature of the deformation path in plastic deformation. In asymmetric rolling, plain strain compression and shear are the main components of the imposed strain. In this work, viscoplastic self-consistent (VPSC) simulations of the texture evolution were used to determine the combination and sequence of the two deformation components. It has been found that the deformation path is composed of two parts in asymmetric rolling: it is first essentially rolling, followed by the simple shear process. Simultaneous rolling and shear process cannot produce the observed textures, while the decomposed simulation can reproduce it faithfully.</jats:p>
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author	Dhinwal, Satyaveer Singh, Toth, Laszlo S
author_facet	Dhinwal, Satyaveer Singh, Toth, Laszlo S, Dhinwal, Satyaveer Singh, Toth, Laszlo S
author_sort	dhinwal, satyaveer singh
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description	<jats:p>The texture evolution is wearing the signature of the deformation path in plastic deformation. In asymmetric rolling, plain strain compression and shear are the main components of the imposed strain. In this work, viscoplastic self-consistent (VPSC) simulations of the texture evolution were used to determine the combination and sequence of the two deformation components. It has been found that the deformation path is composed of two parts in asymmetric rolling: it is first essentially rolling, followed by the simple shear process. Simultaneous rolling and shear process cannot produce the observed textures, while the decomposed simulation can reproduce it faithfully.</jats:p>
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spelling	Dhinwal, Satyaveer Singh Toth, Laszlo S 1996-1944 MDPI AG General Materials Science http://dx.doi.org/10.3390/ma13010101 <jats:p>The texture evolution is wearing the signature of the deformation path in plastic deformation. In asymmetric rolling, plain strain compression and shear are the main components of the imposed strain. In this work, viscoplastic self-consistent (VPSC) simulations of the texture evolution were used to determine the combination and sequence of the two deformation components. It has been found that the deformation path is composed of two parts in asymmetric rolling: it is first essentially rolling, followed by the simple shear process. Simultaneous rolling and shear process cannot produce the observed textures, while the decomposed simulation can reproduce it faithfully.</jats:p> Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation Materials
spellingShingle	Dhinwal, Satyaveer Singh, Toth, Laszlo S, Materials, Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation, General Materials Science
title	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_full	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_fullStr	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_full_unstemmed	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_short	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
title_sort	unlocking deformation path in asymmetric rolling by texture simulation
title_unstemmed	Unlocking Deformation Path in Asymmetric Rolling by Texture Simulation
topic	General Materials Science
url	http://dx.doi.org/10.3390/ma13010101