HOSOGI Maho | Kagawa University
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概要
関連著者
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HOSOGI Maho
Kagawa University
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Sakuma T
School Of Engineering University Of Tokyo
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Sakuma T
Department Of Advanced Materials Science Graduate School Of Frontier Sciences University Of Tokyo
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Okabe Nagatoshi
Graduate school of Science and Engineering, Ehime University
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SAKUMA Toshio
Central Research Institute of Electric Power Industry
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OKABE Nagatoshi
Toshiba Corporation
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Okabe N
Ehime Univ. Ehime
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Okabe Nagatoshi
Ehime University
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Okabe Nagatoshi
Graduate School Of Science And Engineering Ehime University
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Okita Keisuke
Department Of Mechanical Engineering Ehime University
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橋口 原
静岡大学
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Okita Keisuke
Department Of Biomedical Sciences Laboratory Of Biochemistry Graduate School Of Veterinary Medicine
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Tanaka S
Interface Science Research Group Special Division For Green Life Technology National Institute Of Ad
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OKABE Nagatoshi
Department of Mechanical Engineering, Ehime University
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Okabe Nagatoshi
Department Of Mechanical Engineering Ehime University
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IWATA Uichi
Central Research Institute of Electric Power Industry
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OKITA Keisuke
Ehime University
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HOSOGI Maho
Faculty of Engineering, Kagawa University
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Iwata U
Central Research Institute Of Electric Power Industry
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MIYAZAKI Shuichi
University of Tsukuba
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青山 満
静岡大学
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鈴木 勝順
香川大
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橋口 原
静岡大
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青山 満
静岡大学電子工学研究所
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Hosogi Maho
Department Of I. M. S. E. Kagawa University
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HASHIGUCHI Gen
Kagawa University
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Oohira Fumikazu
Department Of I. M. S. E. Kagawa University
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HASHIGUCHI Gen
Research Institute of Electronics Shizuoka University
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KOYAMA Hirotaka
Kagawa University
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OOHIRA Fumikazu
Kagawa University
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橋口 原
Research Institute Of Electronics Shizuoka University
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青山 満
静岡大
著作論文
- 2117 交流ブリッジ回路による櫛歯アクチュエータの駆動とそのセンサ応用(要旨講演,一般セッション:マイクロナノメカトロニクス)
- Multi-Probe SPM using Interference Patterns for a Parallel Nano Imaging
- Effect of Copper Content on Superelasticity Characteristics in Ti-Ni and Ti-Ni-Cu Alloy Wires
- A New Constitutive Equation for Superelastic Deformation and Prediction of Martensite Volume Fraction in Titanium-Nickel-Cupper Shape Memory Alloy
- Effect of Cyclic Deformation on Thermo-Mechanical Characteristics in Ti-Ni-Cu Alloy Wires with Various Copper Contents
- A New Fatigue Model for Titanium-Nickel-Cupper Shape Memory Alloy Subjected to Superelastic Cyclic Deformation
- Probabilistic Estimation of the Degradation of Function and Strength of Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloys under Thermo-Mechanical Cyclic Conditions
- Effects of Cold Working and Heat Treatment on Transformation Temperature of Ti-41.7Ni-8.5Cu (at%) Shape Memory Alloy and Its Probabilistic Prediction