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of Photo-optical Instrumentation Engineer, 2017, 10061: plates[J]. Colloids & Surfaces A Physicochemical & Engi-
100610S. neering Aspects, 2014, 456(1): 238–245.
[25] Yu N, Wang S, Liu H, et al. Integrated obstacle mi- [30] Nyborg W L. Acoustic streaming due to attenuated plane
crostructures for gas-liquid separation and flow switch- waves[J]. Journal of the Acoustical Society of America,
ing in microfluidic networks[J]. Sensors and Actuators B: 1953, 25(1): 68–75.
Chemical, 2018, 256: 735–743. [31] Shiokawa S, Matsui Y, Ueda T. Liquid streaming and
[26] Berry S, Zhang T, Day J, et al. Upgrading well plates us- droplet formation caused by leaky rayleigh waves[J]. Ul-
ing open microfluidic patterning[J]. Lab on a Chip, 2017, trasonics Symposium, 1989, 89: 643–646.
17(24): 4253–4264. [32] 何存富, 郑阳, 周进节, 等. 基于激光测振仪的兰姆波离面和
[27] Carin M. Deformation of free surface under pressure- 面内位移检测 [J]. 机械工程学报, 2012, 48(8): 6–11.
2D model with surface tension, COMSOL Multiphysics He Cunfu, Zheng Yang, Zhou Jinjie, et al. In-plane and
Model gallery[M]. Lorient Cedex–France, 2009. out-of-plane displacement of Lamb waves test with laser
[28] Alghane M, Chen B, Fu Y, et al. Experimental and nu- vibrometer[J]. Journal of Mechanical Engineering, 2012,
merical investigation of acoustic streaming excited by us- 48(8): 6–11.
◦
ing a surface acoustic wave device on a 128 YX-LiNbO 3 [33] Laliaa B, Janajrehb I, Hashaikeha R. A facile approach to
substrate[J]. Journal of Micromechanics & Microengineer- fabricate superhydrophobic membranes with low contact
ing, 2012, 21(1): 015005. angle hysteresis[J]. Journal of Membrane Science, 2017,
[29] Janardan N, Panchagnula M. Effect of the initial con- 539: 144–151.
ditions on the onset of motion in sessile drops on tilted
