Nitta K | Department Of Molecular And Material Science Igses Kyushu University
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概要
- Nitta Koh-Heiの詳細を見る
- 同名の論文著者
- Department Of Molecular And Material Science Igses Kyushu Universityの論文著者
関連著者
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Nitta K
Department Of Molecular And Material Science Igses Kyushu University
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根本 紀夫
Kyushu Univ. Fukuoka Jpn
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Nemoto Norio
Department Of Applied Physics Faculty Of Engineering Kyusyu University
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Nitta Koh-hei
School Of Materials Science Japan Advanced Institute Of Science And Technology
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Song Yihu
Department of Molecular and Material Sciences, IGSES, Kyushu University
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Song Y
Zhejiang Univ. Hangzhon Chn
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Song Yihu
Department of Molecular and Material Science, IGSES, Kyushu University
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野沢 保
金沢大学 理工研究域 自然システム学類 物質循環工学コース
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野沢 保
金沢大
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Emi H
Department Of Chemistry And Chemical Engineering Kanazawa Univresity
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Nitta Koh-hei
Department Of Chemical Engineering Graduate School Of Natural Science & Technology Kanazawa Univ
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Namiki N
Kanazawa Univ. Ishikawa Jpn
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Namiki Norikazu
Department Of Chemistry And Chemical Engineering Kanazawa University
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WU Chifei
Deparatament of Organic and Polymer Materials Chemistry, Tokyo University of Agriculture and Technol
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OTANI Yoshio
Department of Chemistry and Chemical Engineering, Kanazawa Univresity
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EMI Hitoshi
Department of Chemistry and Chemical Engineering, Kanazawa Univresity
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Wu Chifei
Deparatament Of Organic And Polymer Materials Chemistry Tokyo University Of Agriculture And Technolo
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Wu Chifei
Department Of Chemistry And Chemical Engineering Kanazawa University
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SHIGEMATSU Yasuyoshi
Production Department III, Nagahama Plant, Mitsubishi Plastic Incorporation
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Shigematsu Yasuyoshi
Production Department Iii Nagahama Plant Mitsubishi Plastic Incorporation
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Otani Yoshio
Department Of Chemistry And Chemical Engineering Graduate School Of Natural Science And Technology K
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Otani Yoshio
Department Of Chemical And Material Engineering Kanazawa University
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EMI HITOSHI
Department of Chemical Engineering, Kanazawa University
著作論文
- Phase Modification of Acrylate Rubber/Chlorinated Polypropylene Blends by a Hindered Phenol Compound
- Inhomogeneous Deformation of Microcrystalline Region in Isotactic Polypropylene Film Revealed by a Simultaneous Kinetic Measurement of Microscopic Infrared Dichroism and Macroscopic Stress
- Deformation Mechanisms of Polymer Thin Films by Simultaneous Kinetic Measurement of Microscopic Infrared Dichroism and Macroscopic Stress. Part III : Influence of Morphology on Molecular Orientation of Isotactic Polypropylene Films Subjected to Uniaxial S