Citation: | Qitong SU, Xindi LI, Yao LU, Shuai HUANG. Designing an ultrasonic array device to transport space particle suspension[J]. Journal of Advanced Manufacturing Science and Technology , 2022, 2(1): 2022004. doi: 10.51393/j.jamst.2022004 |
[1] |
. Huang S, Zhang YY, Wang ZM, et al. A one-step method to fabricate bio-friendly patterned superhydrophobic surface by atmospheric pressure cold plasma. Journal of Advanced Manufacturing Science and Technology 2021; 1(1): 2020005.
|
[2] |
. Xie WJ, Wei BB. New progress of acoustic levitation. Physics 2002; 31(9): 551-554.
|
[3] |
. Zhou Y, Hong LF, Li XY, et al. Investigation on transient dynamics of rotor system in air turbine starter based on magnetic reduction gear. Journal of Advanced Manufacturing Science and Technology 2021; 1(3): 2021009.
|
[4] |
. Geng TY, Xu ZY. Electrochemical discharge machining for fabricating holes in conductive materials: A review. Journal of Advanced Manufacturing Science and Technology 2021; 1(3): 2021006.
|
[5] |
. Cao YM, Xie WJ, Jun S, et al. Preparation of epoxy blends with nanoparticles by acoustic levitation technique. Journal of Applied Polymer Science 2002; 86(1): 84-89.
|
[6] |
. Shen CL, Xie WJ, Hong ZY, et al. Development and application of acoustic levitation technology. Knowledge of Modern Physics 2010; 22 (3): 10-13.
|
[7] |
. He SH. A new biochemical traces analysis method -- Ultrasonic suspension technology. Chemical Bulletin 2004; 67(11): 22-26.
|
[8] |
. Zang DY, Zhang ZH, Liu KQ, et al. Noncontact manipulation and dynamics of droplets based on ultrasonic suspension. Chinese Science: Physics, Mechanics and Astronomy 2020; 50(10) : 113-144.
|
[9] |
. Marco AB, Nicolas P, Julio CA. Review of progress in acoustic levitation. Brazilian Journal of Physics 2018; 48(2): 190-213.
|
[10] |
. Bai DN, Gao PF, Yan XG, et al. Intelligent forming technology: State-of-the-art review and perspectives. Journal of Advanced Manufacturing Science and Technology 2021; 1(3): 2021008.
|
[11] |
. Courtney CRP, Ong C-K O, Drinkwater BW, et al. Manipulation of microparticles using phase-controllable ultrasonic standing waves. The Journal of the Acoustical Society of America 2010; 128(4): L195-L199.
|
[12] |
. Koyama D, Ito Y, Nakamura K. Noncontact ultrasonic circular transportation of small objects in air using a vibrating disc. IEICE Technical Report 2009; 109(347): 1-6.
|
[13] |
. Koyama D, Nakamura K. Noncontact ultrasonic transportation of small objects over long distances in air using a bending vibrator and a reflector. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control 2010; 57(5): 1152-1159.
|
[14] |
. Kozuka T, Tuziuti T, Mitome H, et al. Control of a standing wave field using a line-focused transducer for two-dimensional manipulation of particles. Japanese Journal of Applied Physics 2014; 37: 2974-2978.
|
[15] |
. Daniele F, Majid N, Mirko K, et al. Acoustophoretic contactless transport and handling of matter in air. Proceedings of the National Academy of Sciences 2013; 110(31): 12549-12554.
|
[16] |
. Wu JR. Acoustical tweezers. The Journal of the Acoustical Society of America 1991; 89(5): 2140-2143.
|
[17] |
. Lee M C, Feng I-an. Acoustic levitating apparatus for submillimeter samples. Review of Scientific Instruments 1982; 53(6): 854-859.
|
[18] |
. Harri W, Kourosh L, Quan Z. Two-dimensional manipulation in mid-air using a single transducer acoustic levitator. Micromachines 2019; 10(4): 257.
|
[19] |
. Asier M, Bruce WD. Holographic acoustic tweezers. Proceedings of the National Academy of Sciences 2019; 116(1): 84-89.
|
[20] |
. Gorkov LP. On the forces acting on a small particle in an acoustical field in an ideal fluid. Soviet Physics Doklady 1962; 6(1): 773.
|
[21] |
. Hong ZY, Xie WJ, Wei BB. Acoustic levitation with self-adaptive flexible reflectors. Review of Scientific Instruments 2011; 82(7): 074904.
|
[22] |
. Hong ZY, Xie WJ, Wei BB. Interaction of acoustic levitation field with liquid reflecting surface. Journal of Applied Physics 2010; 107(1): 014901.
|