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A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding

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Bibliographische Detailangaben
Zeitschriftentitel: Crystals
Personen und Körperschaften: Wang, Hui, Lu, Cheng, Tieu, Kiet
In: Crystals, 9, 2019, 2, S. 119
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Inorganic Chemistry
Condensed Matter Physics
General Materials Science
General Chemical Engineering
author_facet Wang, Hui
Lu, Cheng
Tieu, Kiet
Wang, Hui
Lu, Cheng
Tieu, Kiet
author Wang, Hui
Lu, Cheng
Tieu, Kiet
spellingShingle Wang, Hui
Lu, Cheng
Tieu, Kiet
Crystals
A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
Inorganic Chemistry
Condensed Matter Physics
General Materials Science
General Chemical Engineering
author_sort wang, hui
spelling Wang, Hui Lu, Cheng Tieu, Kiet 2073-4352 MDPI AG Inorganic Chemistry Condensed Matter Physics General Materials Science General Chemical Engineering http://dx.doi.org/10.3390/cryst9020119 <jats:p>In this report, reverse accumulative roll-bonding (ARB) was conducted for the first time. It was found that the microstructure after reverse ARB was relatively coarser than that after unidirectional ARB, and texture intensity was slightly weaker. In addition to the experimental study, the crystal plasticity finite element method was applied to the ARB-processed polycrystalline aluminium. The simulation followed the real deformation of reverse ARB and unidirectional ARB, and the predictions were validated by the experimental observations. Compared to the second cycle of unidirectional ARB, the crystal orientations (after the first cycle) were relatively unstable during the second cycle of reverse ARB, which is believed to be the reason for the relatively coarser microstructure after reverse ARB.</jats:p> A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding Crystals
doi_str_mv 10.3390/cryst9020119
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title A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_unstemmed A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_full A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_fullStr A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_full_unstemmed A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_short A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_sort a combined experiment and crystal plasticity fem study of microstructure and texture in aluminium processed by reverse and unidirectional accumulative roll-bonding
topic Inorganic Chemistry
Condensed Matter Physics
General Materials Science
General Chemical Engineering
url http://dx.doi.org/10.3390/cryst9020119
publishDate 2019
physical 119
description <jats:p>In this report, reverse accumulative roll-bonding (ARB) was conducted for the first time. It was found that the microstructure after reverse ARB was relatively coarser than that after unidirectional ARB, and texture intensity was slightly weaker. In addition to the experimental study, the crystal plasticity finite element method was applied to the ARB-processed polycrystalline aluminium. The simulation followed the real deformation of reverse ARB and unidirectional ARB, and the predictions were validated by the experimental observations. Compared to the second cycle of unidirectional ARB, the crystal orientations (after the first cycle) were relatively unstable during the second cycle of reverse ARB, which is believed to be the reason for the relatively coarser microstructure after reverse ARB.</jats:p>
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author Wang, Hui, Lu, Cheng, Tieu, Kiet
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author_sort wang, hui
container_issue 2
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container_title Crystals
container_volume 9
description <jats:p>In this report, reverse accumulative roll-bonding (ARB) was conducted for the first time. It was found that the microstructure after reverse ARB was relatively coarser than that after unidirectional ARB, and texture intensity was slightly weaker. In addition to the experimental study, the crystal plasticity finite element method was applied to the ARB-processed polycrystalline aluminium. The simulation followed the real deformation of reverse ARB and unidirectional ARB, and the predictions were validated by the experimental observations. Compared to the second cycle of unidirectional ARB, the crystal orientations (after the first cycle) were relatively unstable during the second cycle of reverse ARB, which is believed to be the reason for the relatively coarser microstructure after reverse ARB.</jats:p>
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physical 119
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publisher MDPI AG
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spelling Wang, Hui Lu, Cheng Tieu, Kiet 2073-4352 MDPI AG Inorganic Chemistry Condensed Matter Physics General Materials Science General Chemical Engineering http://dx.doi.org/10.3390/cryst9020119 <jats:p>In this report, reverse accumulative roll-bonding (ARB) was conducted for the first time. It was found that the microstructure after reverse ARB was relatively coarser than that after unidirectional ARB, and texture intensity was slightly weaker. In addition to the experimental study, the crystal plasticity finite element method was applied to the ARB-processed polycrystalline aluminium. The simulation followed the real deformation of reverse ARB and unidirectional ARB, and the predictions were validated by the experimental observations. Compared to the second cycle of unidirectional ARB, the crystal orientations (after the first cycle) were relatively unstable during the second cycle of reverse ARB, which is believed to be the reason for the relatively coarser microstructure after reverse ARB.</jats:p> A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding Crystals
spellingShingle Wang, Hui, Lu, Cheng, Tieu, Kiet, Crystals, A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding, Inorganic Chemistry, Condensed Matter Physics, General Materials Science, General Chemical Engineering
title A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_full A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_fullStr A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_full_unstemmed A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_short A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
title_sort a combined experiment and crystal plasticity fem study of microstructure and texture in aluminium processed by reverse and unidirectional accumulative roll-bonding
title_unstemmed A Combined Experiment and Crystal Plasticity FEM Study of Microstructure and Texture in Aluminium Processed by Reverse and Unidirectional Accumulative Roll-Bonding
topic Inorganic Chemistry, Condensed Matter Physics, General Materials Science, General Chemical Engineering
url http://dx.doi.org/10.3390/cryst9020119