[1]Koyama D, Nakamura K. Noncontact Ultrasonic Transportation of Small Objects Over Long Dis- tances in Air Using a Bending Vibrator and a Re- flector [J]. Ultrasonics, Ferroelectrics and Fre- quency Control,2010,57(5) :1152-1159.
[2]贾兵[1],陈超[1],赵淳生[1].基于近场超声悬浮的耦合频率特性分析[J].中国机械工程,2011,22(17):2088-2092.
[3]Takeshi I,Friend J, Nakamura K, et al. A Non- contact Linear Bearing and Actuator via Ultrasonic Levitation[J]. Sensors and Actuators A:Physical, 2007,135 (2) : 740-747.
[4]Zhao S,Wallaschek J. Experimental Investigations of Ultrasonic Levitation in a Machine Tool Spindle System[C]//Proceedings of the 2009 IEEE Inter- national Ultrasonics Symposium. Roma, 2009 : 20- 23.
[5]田丰君.基于夹心式压电换能器的超声波近场声悬浮支撑技术研究[D].长春:吉林大学,20lO.
[6]Weber J K R,Rey C A,Neuefeind J,et al. Acoustic Levitator for Structure Measurements on Low Tern-perature Liquid Droplets [J]. Review of Scientific Instruments,2009,80(8) : 10. 1063/1. 3196177.
[7]Yano R, Aoyagi M,Tamura H, et al. Novel Trans- fer Method Using Near-field Acoustic Levitation and Its Application[J]. Japanese Journal of Applied Physics, 2011,50(7) :07 HE29-07HE29-5.
[8]潘祥生[1],邢立华[1],李勋[1],张德远[1].聚焦式超声悬浮[J].北京航空航天大学学报,2006,32(1):79-82.
[9]Ueha S, Hashimoto Y,Koike Y. Ultrasonic Actua- tors Using Near Field Acoustic Levitation [C]// IEEE International Ultrasonics Symposium. Sen- dai ,Japan, 1998 : 661-666.
[10]王鹏飞[1],郭伟[1],孙立宁[1].球基微操作器黏滑摩擦过程建模与分析[J].中国机械工程,2011,22(15):1765-1769.
[11]田桂中[1],侯丽雅[1],章维一[1].显微注射中细胞位姿调节技术及实验研究[J].中国机械工程,2009,10(4):409-412.
[12]Ueha S, Hashimoto Y,Koike Y. Ultrasonic Actua- tors Using Near Field Acoustic Levitation[C]// IEEE International Ultrasonics Symposium. Sen- dai,Japan, 1998 ~ 661-666.
[13]李太宝著.计算声学 声场的方程和计算方法[M],2005:279. |