<i>In Situ</i> Synchrotron X-ray Analysis: Application of High-Pressure Sliding Process to Ti Allotropic Transformation
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- Horita Zenji
- Graduate School of Engineering, Kyushu Institute of Technology Magnesium Research Center, Kumamoto University Synchrotron Light Application Center, Saga University Department of Materials Science and Engineering, Kyushu University
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- Maruno Daisuke
- Department of Materials Science and Engineering, Kyushu University
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- Ikeda Yukimasa
- Department of Materials Science and Engineering, Kyushu University
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- Masuda Takahiro
- Department of Materials Science and Engineering, Kyushu University Department of Mechanical Engineering and Materials Science, Yokohama National University
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- Tang Yongpeng
- Graduate School of Engineering, Kyushu Institute of Technology Department of Materials Science and Engineering, Kyushu University
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- Arita Makoto
- Department of Materials Science and Engineering, Kyushu University
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- Higo Yuji
- Japan Synchrotron Radiation Research Institute
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- Tange Yoshinori
- Japan Synchrotron Radiation Research Institute
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- Ohishi Yasuo
- Japan Synchrotron Radiation Research Institute
Bibliographic Information
- Other Title
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- 高圧スライド法を用いたTi同素変態のその場放射光X線解析
- コウアツ スライドホウ オ モチイタ Ti ドウ ソ ヘンタイ ノ ソノ バ ホウシャコウ Xセン カイセキ
- In Situ Synchrotron X-ray Analysis : Application of High-Pressure Sliding Process to Ti Allotropic Transformation
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Description
<p>In this study, severe plastic deformation through high-pressure sliding (HPS) was applied for in situ high-energy X-ray diffraction analysis at SPring-8 in JASRI (Japan Synchrotron Radiation Research Institute). Allotropic transformation of pure Ti was examined in terms of temperatures, pressures and imposed strain using a miniaturized HPS facility. The true pressure applied on the sample was estimated from the peak shift. Peak broadening due to local variation of pressure was reduced using white X-rays. The phase transformation from α phase to ω phase occurred at a pressure of ∼4.5 GPa. Straining by the HPS processing was effective to promote the transformation to the ω phase and to maintain the ω phase even at ambient pressure. The reverse transformation from ω phase to α phase occurred at a temperature of ∼110°C under ambient pressure, while under higher pressure as ∼4 GPa, the ω phase remained stable even at ∼170°C covered in this study. It was suggested that the reverse transformation from the ω phase to the α phase is controlled by thermal energy.</p>
Journal
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- MATERIALS TRANSACTIONS
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MATERIALS TRANSACTIONS 62 (2), 167-176, 2021-02-01
The Japan Institute of Metals and Materials
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Details 詳細情報について
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- CRID
- 1390568456355117440
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- NII Article ID
- 120007026489
- 130007974693
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- NII Book ID
- AA1151294X
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- ISSN
- 13475320
- 18806880
- 24337501
- 13459678
- 00214876
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- HANDLE
- 10228/00008202
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- Web Site
- https://kyutech.repo.nii.ac.jp/records/6998
- http://id.ndl.go.jp/bib/032674353
- https://ndlsearch.ndl.go.jp/books/R000000004-I032674353
- http://id.ndl.go.jp/bib/031244983
- https://ndlsearch.ndl.go.jp/books/R000000004-I031244983
- https://www.jstage.jst.go.jp/article/jinstmet/87/2/87_J2022040/_pdf
- https://www.jstage.jst.go.jp/article/matertrans/62/2/62_MT-M2020314/_pdf
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- Text Lang
- en
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- Data Source
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- JaLC
- IRDB
- NDL Search
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- Abstract License Flag
- Disallowed