摘要
液膜马达作为一种新颖的实验装置在基础研究和技术应用方面都将会发挥着重要的作用,深入研究各种条件下液膜马达的电致流动特征是非常有意义的.本文从理论上研究了均匀恒定外电场中的液膜马达在方波电泳电场驱动下的动力学特征,解析地给出了液膜转动的线速度随时空变化的规律.理论结果表明,液膜会随着电泳电场频率的增大由对称性往复转动逐渐转变为振动,这不仅有助于从理论上认识液膜马达振动的物理根源,也为在实际应用中设计液膜搅拌机提供了一种新思路.
Liquid film motor as a novel experimental device will play an important role in basic research and technology applications. Indepth theoretical studies on its electro-hydrodynamics (EHD) motions under various conditions are of great significance. In current paper, the dynamical characteristics of the liquid film motor driven by a square-wave electrophoresis electric field perpendicular to a uniform constant external electric field are investigated. Space-time dependence of the film's rotation linear velocity is derived analytically. The theoretical results indicate that a symmetrical reciprocating rotation in the film gradually converts to a vibration as the frequency of the electrophoresis electric field increases. This not only helps us understand the physical origin of the vibration of the liquid film motor, but also provides a new option to design a liquid film mixer in the application.
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2012年第13期299-305,共7页
Acta Physica Sinica
基金
国家自然科学基金(批准号:11074300)资助的课题~~
关键词
电致流动
液体薄膜
方波电场
液膜的转动
elecrohydrodynamical motions, liquid thin film, square-wave electric field, rotation of liquid film
