NAKAYAMA Hideaki | Faculty of Engineering, Yamanashi University
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概要
関連著者
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NAKAYAMA Hideaki
Faculty of Engineering, Yamanashi University
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Nakayama Hideaki
Faculty Of Engineering Yamanashi University
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TANAKA Tsuneshichi
Faculty of Engineering, Ritsumeikan University
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Nakayama Hideaki
Faculty Of Junior College Of Automobile Industry Osaka Industrial University
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Kanayama Yukio
Faculty of Engineering, Osaka Sangyo University
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Tanaka Tsuneshichi
Faculty Of Science And Engineering Ritsumeikan University
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Kanayama Yukio
Faculty Of Engineering Osaka Industrial University
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Nakayama Hideaki
Faculty of Junior College of Automobile Industry, Osaka Industrial University
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Shikida Masahiro
Faculty Of Engineering Osaka Industrial University
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Asano Katsumi
Institute Of Health And Sport Sciences University Of Tsukuba
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NAKAGAWA Yasuhiko
Faculty of Engineering, Yamanashi University
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Nakagawa Yasuhiko
Facully Of Engineering Yamanashi University
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TAKAHASHI HIROMI
Faculty of Nursing, Iwate Prefectural University
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KOYAMA Akihiro
Faculty of Engineering, Yamanashi University
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Koyama Akihiro
Faculty Of Engineering Yamanashi University
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Nakayama H
Tottori Univ.
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Nakayama H
Executive Office School Juridical Person Osaka Sangyo University
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Kinoshita Ken-ichiroh
Kinoshita Metal Industry Co. Ltd.
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Tanaka T
Faculty Of Science And Engineering Ritsumeikan University
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Asano Katsumi
Institute Of Health And Sports Sciences University Of Tsukuba
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Takahashi Hiromi
Faculty Of Integrated Arts Sciences Hiroshima University
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Nakayama Hideaki
Faculty Of Medicine Tottori University
著作論文
- Second Harmonic Generation of Surface Acoustic Waves from a Dot Array : SAW and Communication Devices
- Effect of Loading Time on High-Cycle Range Impact Fatigue Strength and Impact Fatigue Crack Growth Rate
- Study on Crack Growth Behavior in Impact Fatigue : Part III, Fatigue Crack Growth Behaviors of 2017-T3 Aluminum Alloy
- Study on Crack Growth Behaviors in Impact Fatigue : Part II, Crack Clusure Behavior under Simple Impact Load
- Effect of Endurance Training under Hypoxic Condition on Oxidative Enzyme Activity in Rat Skeletal Muscle
- Study on Crack Growth Behavior in Impact Fatigue : Part 1,Impact Fatigue Crack Growth Characteristics of 0.1%C Aluminum Killed Steel