Experiment
ナノ構造体の疲労強度・現象に関する研究
Characteristic Feature of Slip Bands in Submicron Single Crystal Gold in Fatigue
Takashi Sumigawa, Ryosuke Shiohara, Kenta Matsumoto and Takayuki Kitamura
Acta Materialia, Vol.61, pp.2692-2700 (2013)
Fatigue of 1μm-Scale Gold by Vibration with Reduced Resonant Frequency
Takashi Sumigawa, Kenta Mtatsumoto, Toshiyuki Tsuchiya and Takayuki Kitamura
Materials Science and Engineering A, Vol.556, pp.429-436 (2012)
Effect of Environment on Fatigue Strength of Cu/Si Interface in Nanoscale Components
Yan Yabin, Takashi Sumigawa and Takayuki Kitamura
Materials Science and Engineering A, Vol.556 pp.147-154 (2012)
Fatigue strength of Cu/Si Interface in nano-component
Takashi Sumigawa, Tadashi Murakami and Takayuki Kitamura
Materials Science & Engineering A, Vol.528, pp.5158-5163(2011)
Cu/Si Interface Fracture Due to Fatigue of Cooper Film in Nanometer Scale
Takashi Sumigawa, Tadashi Murakami, Tetsuya Shishido and Takayuki Kitamura
Materials Science and Engineering A, Vol.527, pp.6518-6523 (2010)
Fatigue Crack Growth along Interface between Metal and Ceramics Submicron-thick Films in Inert Environment
Hiroyuki Hirakata, Masaya Kitazawa and Takayuki Kitamura
Acta Materialia, Vol.54, pp.89-97(2006)
Effect of Loading Frequency on Fatigue Crack Growth between a Submicron-Thick Film and a Substrate
Do Van Truong, Hiroyuki Hirakata and Takayuki Kitamura
JSME International Journal, Vol.49, No.3, pp.370-375 (2006)