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特任副研究员
- 电子邮箱:af4c90b44d8c8ec2d13caecd7d10c9d7f0c84a4de1be8574cc207a02bd27cf66ca63307d41ce8891fa2d2b69535900dc1fd1905221840007b0adacf0b883932e6e6eaa6edc4a804e872f2a0da48e2faf8b721cc4cbefffe4f5a44d5c2f6fa7bdf08b0645ff58b4e027e242efb3839de23e33d56281d9f05d15cf7169532a4d14
- 学历:博士研究生毕业
- 办公地点:西区力学1楼403
- 学位:博士
- 毕业院校:King Abdullah University of Science and Technology
- 学科:力学
访问量:
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[1]Luo L.,Tian, Y. S.,Li, E. Q..Bubble ring entrapment during a water drop impact on viscous oil films.Physics of Fluids,2024,36(4):
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[2]Luo L.,Tian Y. S.,Li. E. Q..Experimental study on the impact behaviors of a water drop on immiscible oil surfaces: bouncing, compound central jet formation and crater evolution.Experiments in Fluids,2024,65(3):40.
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[3]Tian Y. S.,Aljedaani A. B.,Alghamdi T..Thoroddsen S. T..Dancing ejecta.Journal of Fluid Mechanics,2024,981A4.
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[4]Hu W.,Zhao Y.,Peng S.,Chen R.,Li E. Q..Zhou X.,Tian Y. S..Experimental and numerical investigations on flash evaporation of a sessile droplet under reduced pressure.Physics of Fluids,2023,35(11):
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[5]Tian Y. S.,Yang Z. Q.,Thoroddsen S. T..Conical focusing: mechanism for singular jetting from collapsing drop-impact craters.Journal of Fluid Mechanics,2023,958R1.
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[6]Tian Y. S.,Li E. Q.,Elsaadawy E.,Zhang J. M.,Vakarelski I. U..Thoroddsen S. T..Coalescence time of water-in-oil emulsions under shear.Chemical Engineering Science,2021,250117257.
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[7]Tian Y. S.,Yang Z. Q.,Elsaadawy E..Thoroddsen S. T..A new image-based microfluidic method to test demulsifier enhancement of coalescence-rate, for water droplets in crude oil.Journal of Petroleum Science and Engineering,2021,208109720.
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[8]Yang Z. Q.,Tian Y. S..Thoroddsen S. T..Multitude of dimple shapes can produce singular jets during the collapse of immiscible drop-impact craters.Journal of Fluid Mechanics,2020,904A19.
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[9]Zhang, P.,Moretti, M.,Allione, M.,Tian, Y. S.,Ordonez-Loza, J.,Altamura, D.,Giannini, C.,Torre, B.,Das, G.,Li, E. Q.,Thoroddsen, S. T.,Sarathy, S. M.,Autiero, I.,Giugni, A.,Gentile, F.,Malara, N.,Marini, M..Di Fabrizio, E..A droplet reactor on a super-hydrophobic surface allows control and characterization of amyloid fibril growth.Communcations Biology,2020,3(1):457.
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[10]Vakarelski I. U.,Thoroddsen, S. T.,Chan, D. Y. C.,Li, E. Q.,Tian, Y. S.,Yang, F..Mobile-surface bubbles and droplets coalesce faster but bounce stronger.Science Advances,2019,5(10):eaaw4292.
