SHIOTA Y. | Ibaraki Univ.
スポンサーリンク
概要
関連著者
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SHIOTA Y.
Ibaraki Univ.
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SHIOTA Y.
Graduate student of Ibaraki University
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TOMOTA Y.
Ibaraki Univ.
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MORIAI A.
JAERI
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友田 陽
茨城大学大学院理工学研究科
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KAMIYAMA T.
KEK
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HARJO Stefanus
日本原子力研究開発機構J-PARCセンター
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ハルヨ S.
高エネ機構
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Harjo Stefanus
茨城大学工学部超塑性工学研究センター:(現)高エネルギー加速器研究機構物質構造科学研究所中性子科学研究施設
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ステファヌス ハルヨ
Fac. Engineering Ibaraki Univ. Japan
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蟹江 厚臣
茨城大学大学院:(現)三井金属(株)
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HARJO S.
茨城大学工学部
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Harjo S.
Imss-kek
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Harjo S.
高エネ機構
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Minakawa N
Jaeri
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Suzuki T
Faculty Of Engineering Ibaraki University
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Harjo S
Imss-kek
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HARJO S.
JAERI
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Minakawa N.
Jaeri
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Harjo S
Research Center For Superplasticity Faculty Of Engineering Ibaraki University
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Kanie A
Graduate Student Of Ibaraki University
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Harjo S
日本原子力研究開発機構j-parcセンター
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Suzuki Tetsuya
Ibaraki Univ. Fac. Eng.
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LUKAS P.
NPI, Rez, Czech Rep.
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Lukas Petr
Nuclear Physics Institute
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Harjo Stefanus
日本原子力研究開発機構 J-parcセンター
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友田 陽
茨城大学大学院
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Lukas P
Nuclear Physics Inst.
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Lukas P.
Nuclear Physics Institute Czech Republic
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SUZUKI T.
Faculty of Engineering, Ibaraki University
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TOOMINE Y.
Ibaraki University
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TOMOTA Y.
Faculty of Engineering, Ibaraki University
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Suzuki T.
Faculty Of Engineering Ibaraki University
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CHEN S.
Ibaraki Univ.
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MOROOKA S.
Ibaraki Univ.
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SUZUKI T.
Ibaraki Univ.
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花井 哲
日本原子力研究開発機構j-parcセンター
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KANIE A.
Ibaraki Univ.
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KANIE A.
Graduate student of Ibaraki University
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MORII Y.
JAERI
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JIN S.
Ibaraki Univ.
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MATSUSHIMA S.
NIDAK Co.
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SUZUKI H.
JAERI
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Tomota Y.
Faculty Of Engineering Ibaraki University
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Tomota Y.
Faculty Of Eng.
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Chen S
Musashi Inst. Technol.
著作論文
- Microstructural Features of a Heavily Drawn Pearlite Steel Wire : Application of Neutron Scattering on Steel Research : Part 11
- Determination of Volume Fraction and Carbon Concentration of Austenite in TRIP-aided Multi-phase Steels by Neutron TOF Diffraction : Application of Neutron Scattering to Steel Research : Part 12
- Mutli-scaled Heterogeneity in Plastic Flow of Pearlite Steels : Application of Neutron Scattering on Steel Research : Part 17
- Strengthening mechanism of ultra-heavily drawn pearlite steels
- The Strengthening Mechanism of Heavily Drawn Pearlitic Steels : Application of Neutron Scattering to Steel Research : Part 5
- In situ TOF Neutron Diffraction during Tensile Loading for a Ultra-heavily Drawn Pearlitic Steel Wire : Application of Neutron Scattering on Steel Research : Part 18
- Residual Stress Measurement by Neutron Diffraction for a SUS 304 Mechanical Component : Application of Neutron Scattering to Steel Research : Part 15