电流作用下熔融金属在异种金属基板上的润湿性及界面化学

项目名称： 电流作用下熔融金属在异种金属基板上的润湿性及界面化学

项目编号： No.51301083

项目类型： 青年科学基金项目

立项/批准年度： 2014

项目学科： 一般工业技术

项目作者： 林巧力

作者单位： 兰州理工大学

项目金额： 25万元

中文摘要： 目前，依靠电流或电场来实现对液固介质润湿的可控，已广泛地应用于显示器件,可变焦透镜等领域，进而获得了极大的关注。同样，这种方式可应用于冶金领域来控制固/液界面的化学性质，从而获得可靠的钎焊接头或制备综合性能优良的复合材料。由于直流电压、电流的引入不但可以改变体系的润湿性，而且可以改变固/液界面的反应性质，界面结构及铺展动力学，因此对于这方面的研究显得尤为重要。然而，制约电流在冶金领域广泛应用的因素来自于其作用机制尚不十分明朗，电流作为外加能量的引入使得原本复杂的润湿机制，铺展驱动力及界面化学性质变得更加复杂。本项目以高温润湿中的三种驱动力作为出发点，研究：1）电流对溶解润湿的影响及其影响机制；2）电流对反应润湿中界面反应及铺展动力学的影响；3）电流对吸附润湿中化学成分偏聚的影响及由此引发的表界面性质及铺展动力学的影响机制。

中文关键词： 电润湿；电毛细；润湿；铺展动力学；

英文摘要： Recently, the electrowetting as a new technology to achieve the controllable wettability by using external electric current or electric field, has been widely applied to the displayer and vari-focal lens, and thus attracts many researchers' interests. Similarly, this technology can be applied to the metallurgical field to control the chemical properties of the solid/liquid interface, further to obtain reliable brazed joints or the preparation of good comprehensive performance composite. As the DC voltage and current to introduce not only can change the wettability of the system, but also can change the reactivity of the solid/liquid interface, the interfacial structure and spreading dynamics, so it is particularly important for research in this area. However, the factor of constraints for the current widely being used in the metallurgical field, the mechanism is still not very clear, and current as the introduction of external energy make the wetting mechanism, the driving force and interfacial chemical properties become more complex. This project was proposed by the three types of the driving forces in the high temperature as an entry point of the study: 1) The effect of current on the dissolution droved wetting and its mechanisms; 2) the effect of current on the interfacial reaction and spreading dynamics; 3)

英文关键词： Electrowetting；Electrocapillary；Wetting；Spreading dynamics；