Revealing the surface nano-enhancing mechanism of α-titanium alloy by microstructure evolution
The α-titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is newly discovered that a fixed crystal orientation of (120) exists between nanocrystalline zone and matrix zone. The nano-enhancing mechanism of ult...
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Published in | Materials letters Vol. 160; pp. 51 - 54 |
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Main Authors | , , , |
Format | Journal Article |
Language | English |
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Elsevier B.V
01.12.2015
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Abstract | The α-titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is newly discovered that a fixed crystal orientation of (120) exists between nanocrystalline zone and matrix zone. The nano-enhancing mechanism of ultrasonic surface rolling process can be explained by the change of twins and crystal orientation. The compress twinning {10−12}〈−1011〉 of α-titanium dominates the deformation during rolling and impacting.
•A new finding that a fixed crystal orientation of (120) exists between nanocrystalline zone and the matrix zone.•The nano-enhancing mechanism of ultrasonic surface rolling process was explained by the change of twins and crystal orientation. |
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AbstractList | The alpha -titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is newly discovered that a fixed crystal orientation of (120) exists between nanocrystalline zone and matrix zone. The nano-enhancing mechanism of ultrasonic surface rolling process can be explained by the change of twins and crystal orientation. The compress twinning {10-12}-1011 of alpha -titanium dominates the deformation during rolling and impacting. The α-titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is newly discovered that a fixed crystal orientation of (120) exists between nanocrystalline zone and matrix zone. The nano-enhancing mechanism of ultrasonic surface rolling process can be explained by the change of twins and crystal orientation. The compress twinning {10−12}〈−1011〉 of α-titanium dominates the deformation during rolling and impacting. •A new finding that a fixed crystal orientation of (120) exists between nanocrystalline zone and the matrix zone.•The nano-enhancing mechanism of ultrasonic surface rolling process was explained by the change of twins and crystal orientation. |
Author | Liu, Yu Zhao, Xiaohui Fan, Yanjun Wang, Huiyuan |
Author_xml | – sequence: 1 givenname: Xiaohui surname: Zhao fullname: Zhao, Xiaohui organization: Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun 130025, China – sequence: 2 givenname: Yanjun surname: Fan fullname: Fan, Yanjun organization: Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun 130025, China – sequence: 3 givenname: Huiyuan surname: Wang fullname: Wang, Huiyuan organization: Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun 130025, China – sequence: 4 givenname: Yu surname: Liu fullname: Liu, Yu email: liuyuu@jlu.edu.cn organization: School of Mechanical Science and Engineering, Jilin University, Changchun 130025, China |
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Snippet | The α-titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is newly... The alpha -titanium alloy was treated through ultrasonic surface rolling process at room temperature. Nanocrystalline was obtained in specimen surface. It is... |
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SubjectTerms | Crystal structure Deformation Evolution Microstructure Nanocrystalline Nanocrystals Nanostructure Orientation Recrystallization Skin pass rolling Surface Twinning |
Title | Revealing the surface nano-enhancing mechanism of α-titanium alloy by microstructure evolution |
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