Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380
[TOP] | [2013] | [2014] | [2015] | [2016] | [2017] | [2018] | [2019] | [Japanese] / [English]
US2016-61
Beamforming using phase aberration correction on the basis of cross-correlation (1st report)
Chikayoshi Sumi, Takumi Takeda (Sophia Univ)
pp. 1 - 6
US2016-62
Simple Ultrasound Diagnostic System for the Fractured Bone with a Variable Angle Ultrasound Probe
Hiroki Tooyama, Shinichi Takeuchi (Toin University of Yokohama)
pp. 7 - 12
US2016-63
Harmonic Imaging for Micro Crack in Shallow Layer of Solid material by Using Very High-intensity Aerial Ultrasonic Waves
-- Imaging of Amplitude and Phase --
Ayumu Osumi, Youichi Ito (Nihon Univ.)
pp. 13 - 17
US2016-64
Study of ultrasonic welding by complex vibration source consisting of longitudinal and torsional vibration transducers
Takuya Asami, Yusuke Higuchi, Hikaru Mirua (Nihon Univ.)
pp. 19 - 22
US2016-65
Welding of Copper Plate and Aluminum Plate by Ultrasonic Complex Vibration
-- Study by Several Vibration Loci --
Yusuke Higuchi, Takuya Asami, Hikaru Miura (Nihon Univ.)
pp. 23 - 28
US2016-66
Ultrasonic Complex Vibration Welding of Many Metal Foils and Terminals of Li-ion Battery and Capacitor
-- Ultrasonic complex vibration welding using various welding tips --
Jiromaru Tsujino (Asahi EMS/Kanagawa Univ.)
pp. 29 - 34
US2016-67
Development of aerial ultrasonic source combined with a rectangle vibrating plate and rigid walls
-- study of the aerial capacity of ultrasonic standing wave field --
Ryo Sato, Takuya Asami, Hikaru Miura (Nihon Univ.)
pp. 35 - 40
US2016-68
Nonlinear 2nd term in the piezoelectric longitudinal vibration
Ryohei, Takeshi Morita (Tokyo Univ.)
pp. 41 - 46
US2016-69
Design of a resonant frequency ratio-controllable transducer
Hiroki Yokozawa (Tokyo Univ.), Jens Twiefel, Michael Weinstein (Hannover Univ.), Takeshi Morita (Tokyo Univ.)
pp. 47 - 51
US2016-70
Fundamental characteristics of lubricated ultrasonic motors
Wei Qiu (Tokyo Tech/DTU), Kentaro Nakamura (Tokyo Tech)
pp. 53 - 58
US2016-71
Effect to increase of work flow on thermoacoustic system by temperature gradient/distribution within the stack
Seiya Fukuda (Doshisha Univ.), Shin-ichi Sakamoto (Univ. of Shiga Pref.), Mana Sugimoto, Yoshiaki watanabe (Doshisha Univ.)
pp. 59 - 62
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.