Park J‐h | Basic Science Research Institute Pukyong National University
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概要
関連著者
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PARK Jong-Ho
Basic Science Research Institute, Pukyong National University
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Park J‐h
Graduate Student Of Ibaraki University
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Park J‐h
Basic Science Research Institute Pukyong National University
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Park J‐h
Pukyong National Univ. Busan Kor
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SEO Hyo-Jin
Department of Physics, Pukyong National University
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Choi Byung-chun
Department Of Physics Pukyong National University
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Kim Chung-sik
Basic Science Research Institute Pukyong National University
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Choi B‐c
Pukyong National Univ. Busan Kor
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Seo Hyo-jin
Department Of Physics Pukyong National University
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Park Jong-ho
Basic Science Research Institute Pukyong National University
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MOON Byung
Department of Physics, Pukyong National University
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Moon Byung
Department Of Physics Pukyong National University
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Moon B
Department Of Physics Pukyong National University
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Shimizu T.
Sheet Laboratory Technical Research Laboratories Kawasaki Steel Corporation
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TOMOTA Y.
Dept. of Materials Science, Ibaraki University
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PARK Jong-Ho
Department of Physics, Pukyong National University
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TOMOTA Y.
Graduate School of Ibaraki University
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PARK Jong-Ho
Graduate Student of Ibaraki University
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PARK Jong-Ho
Dept. of Materials Science, Ibaraki Univ. Graduate student of Ibaraki University
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TAKAGI S.
Kawasaki Steel Co.
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SHIMIZU T.
Kawasaki Steel Co.
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Park Jong-ho
Graduate School Of Electronic Science And Technology Shizuoka University
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Park Jong-ho
Department Of Physics Inje University
著作論文
- Physical Properties of CsH_2PO_4 Crystal at high Temperatures
- Phase Transition Dielectric Anomaly of PLZT Ceramic in the Temperature Range of 30-350℃
- Thermal Decomposition and Possible Polymerization in KH_2AsO_4 Crystal at High Temperatures(Condensed Matter : Structure, Mechanical and Thermal Properties)
- Physical Properties of CsH_2PO_4 Crystal at High Temperatures
- Phase Transition Dielectric Anomaly of PLZT Ceramic in the Temperature Range of 30-350℃
- Low Temperature Deformation Behavior at 10^3 s^ for a Ferrite-Martensite Steel
- Prediction of Flow Stress at 10^3/s for an Ultra Low Carbon Steel by the Kocks - Mecking Model