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Phase Transitions and Microstructural Processes in Shape Memory Alloys
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Zeitschriftentitel: | Materials Science Forum |
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Personen und Körperschaften: | |
In: | Materials Science Forum, 762, 2013, S. 483-486 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Trans Tech Publications, Ltd.
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Schlagwörter: |
author_facet |
Adiguzel, Osman Adiguzel, Osman |
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author |
Adiguzel, Osman |
spellingShingle |
Adiguzel, Osman Materials Science Forum Phase Transitions and Microstructural Processes in Shape Memory Alloys Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science |
author_sort |
adiguzel, osman |
spelling |
Adiguzel, Osman 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.762.483 <jats:p>Shape memory alloys exhibit a peculiar property, shape memory effect that is the result from the structural changes in microscopic scale. These alloys return to previously defined shapes when they are subjected to variation of temperature after deformation of the low temperature phase. Shape-memory effect is based on martensitic transformation, with which the material changes its internal crystalline structure. The ordered structure or super lattice structure is essential for the shape memory effect of the material. Copper based alloys exhibit this property in the β-phase field, which possesses the simple bcc-structure at high temperature austenite phase. As the temperature is lowered, austenite phase undergoes martensitic transition following two ordering reactions, and microstructural changes in microscopic scale govern this transition. In the present work, Cu alloys were investigated by transmission electron microscope, TEM, and x-ray diffraction techniques.</jats:p> Phase Transitions and Microstructural Processes in Shape Memory Alloys Materials Science Forum |
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Trans Tech Publications, Ltd., 2013 |
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1662-9752 |
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2013 |
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Trans Tech Publications, Ltd. |
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ai |
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ai |
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Materials Science Forum |
source_id |
49 |
title |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_unstemmed |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_full |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_fullStr |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_full_unstemmed |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_short |
Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_sort |
phase transitions and microstructural processes in shape memory alloys |
topic |
Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science |
url |
http://dx.doi.org/10.4028/www.scientific.net/msf.762.483 |
publishDate |
2013 |
physical |
483-486 |
description |
<jats:p>Shape memory alloys exhibit a peculiar property, shape memory effect that is the result from the structural changes in microscopic scale. These alloys return to previously defined shapes when they are subjected to variation of temperature after deformation of the low temperature phase. Shape-memory effect is based on martensitic transformation, with which the material changes its internal crystalline structure. The ordered structure or super lattice structure is essential for the shape memory effect of the material.
Copper based alloys exhibit this property in the β-phase field, which possesses the simple bcc-structure at high temperature austenite phase. As the temperature is lowered, austenite phase undergoes martensitic transition following two ordering reactions, and microstructural changes in microscopic scale govern this transition. In the present work, Cu alloys were investigated by transmission electron microscope, TEM, and x-ray diffraction techniques.</jats:p> |
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author | Adiguzel, Osman |
author_facet | Adiguzel, Osman, Adiguzel, Osman |
author_sort | adiguzel, osman |
container_start_page | 483 |
container_title | Materials Science Forum |
container_volume | 762 |
description | <jats:p>Shape memory alloys exhibit a peculiar property, shape memory effect that is the result from the structural changes in microscopic scale. These alloys return to previously defined shapes when they are subjected to variation of temperature after deformation of the low temperature phase. Shape-memory effect is based on martensitic transformation, with which the material changes its internal crystalline structure. The ordered structure or super lattice structure is essential for the shape memory effect of the material. Copper based alloys exhibit this property in the β-phase field, which possesses the simple bcc-structure at high temperature austenite phase. As the temperature is lowered, austenite phase undergoes martensitic transition following two ordering reactions, and microstructural changes in microscopic scale govern this transition. In the present work, Cu alloys were investigated by transmission electron microscope, TEM, and x-ray diffraction techniques.</jats:p> |
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physical | 483-486 |
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publisher | Trans Tech Publications, Ltd. |
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series | Materials Science Forum |
source_id | 49 |
spelling | Adiguzel, Osman 1662-9752 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials Condensed Matter Physics General Materials Science http://dx.doi.org/10.4028/www.scientific.net/msf.762.483 <jats:p>Shape memory alloys exhibit a peculiar property, shape memory effect that is the result from the structural changes in microscopic scale. These alloys return to previously defined shapes when they are subjected to variation of temperature after deformation of the low temperature phase. Shape-memory effect is based on martensitic transformation, with which the material changes its internal crystalline structure. The ordered structure or super lattice structure is essential for the shape memory effect of the material. Copper based alloys exhibit this property in the β-phase field, which possesses the simple bcc-structure at high temperature austenite phase. As the temperature is lowered, austenite phase undergoes martensitic transition following two ordering reactions, and microstructural changes in microscopic scale govern this transition. In the present work, Cu alloys were investigated by transmission electron microscope, TEM, and x-ray diffraction techniques.</jats:p> Phase Transitions and Microstructural Processes in Shape Memory Alloys Materials Science Forum |
spellingShingle | Adiguzel, Osman, Materials Science Forum, Phase Transitions and Microstructural Processes in Shape Memory Alloys, Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science |
title | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_full | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_fullStr | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_full_unstemmed | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_short | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
title_sort | phase transitions and microstructural processes in shape memory alloys |
title_unstemmed | Phase Transitions and Microstructural Processes in Shape Memory Alloys |
topic | Mechanical Engineering, Mechanics of Materials, Condensed Matter Physics, General Materials Science |
url | http://dx.doi.org/10.4028/www.scientific.net/msf.762.483 |