Experiment
Fatigue in nanometer scale materials
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)