Niu Li-bin | Faculty Of Engineering Shinshu University
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概要
関連著者
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Niu Li-bin
Faculty Of Engineering Shinshu University
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TAKAKU Hiroshi
Faculty of Engineering, Shinshu University
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Takaku Hiroshi
Faculty Of Engineering Shinshu University
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Niu L‐b
Shinshu Univ. Nagano Jpn
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Takaku H
Faculty Of Engineering Shinshu University
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KOBAYASHI Mitsuyuki
Honorary Professor, Shinshu University
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Kobayashi Mitsuyuki
Faculty Of Technology Shinshu University
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Kobayashi Mitsuyuki
Faculty Of Engineering Shinshu University
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SAKUMA Toshio
Central Research Institute of Electric Power Industry
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SAKAI Yoshihiro
Fuji Electric Co., Ltd.
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KYOUGOKU Hideki
Faculty of Engineering, Kinki University
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Kobayashi Mitsuyuki
Honorary Professor Shinshu University
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KATSUTA Akihide
Faculty of Engineering, Shinshu University
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KOBAYASHI Mitsuyuki
Graduate School, Shinshu University
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NAKAMURA Masayuki
Faculty of Engineering, Shinshu University
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FUTAMURA Asahiko
Faculty of Engineering, Shinshu University[
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Futamura Asahiko
Faculty Of Engineering Shinshu University[
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Minami Takao
Investigation & Research Division Sumitomo Metal Technology Inc.
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Nakamura Masayuki
Faculty Of Agriculture Kagoshima University
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Kyougoku Hideki
Faculty Of Engineering Kinki University
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Katsuta Akihide
Faculty Of Engineering Shinshu University
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Hirano Masayoshi
Energy Applications R&d Center Chubu Electric Power Co. Inc.
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ITABA Satoshi
Energy Applications R&D Center, Chubu Electric Power Co., Inc.
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SAKURADA Toshio
Research Laboratory, Kyushu Electric Power Co., Inc.
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IMAIZUMI Yukio
Research Laboratory, Kyushu Electric Power Co., Inc.
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Itaba Satoshi
Energy Applications R&d Center Chubu Electric Power Co. Inc.
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Imaizumi Yukio
Research Laboratory Kyushu Electric Power Co. Inc.
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Sakurada Toshio
Research Laboratory Kyushu Electric Power Co. Inc.
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Sakai Yoshihiro
Fuji Electric Co. Ltd.
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NIU Li-Bin
Faculty of Engineering, Shinshu University
著作論文
- Hot Water Jet Erosion Characteristics of Ti-Ni Shape Memory Alloys
- Tensile Fracture Behaviors in Double-notched Thin Plates of a Ductile Steel
- Initiation and Growth Behavior of Creep Voids in an Austenitic Steel with High Ductility under Multi-axial Stresses
- Creep Rupture Properties of an Austenitic Steel with High Ductility under Multi-axial Stresses
- Effect of Stress States on Creep Fracture Modes of an Austentic Steel with High Ductility
- E-2 TENSION-TORSION CREEP FRACTURE BEHAVIORS OF NOTCHED SPECIMENS OF AUSTENITIC STEEL SUS310S(Session: Thermal Fatique/Creep)
- Accelerated Corrosion Behavior due to Alternating Dry-Wet Conditions for LP Steam Turbine Materials of Fossil Power Plants
- Tension-Torsion Creep Fracture Behaviors of Notched Specimens of Austenitic Steel SUS310S