| 1. | In this chapter we consider the formation and characteristics of the flims
在这一章中,我们考虑了膜的形成和特性。 |
| 2. | The formation mechanism and the structural adjustment of nano aluminum anodic oxide film
纳米级铝阳极氧化膜的形成机理及结构调整 |
| 3. | The researchers showed that gallium killed microbes , and prevented the formation of biofilms
研究人员表明镓能够杀死微生物,阻断被膜的形成。 |
| 4. | The transfer film make the surface more smooth and decrease the wear ratio greatly
认为转移膜的形成令磨损表面更加光滑,有利于改善摩擦材料的耐磨性能。 |
| 5. | The formation and evolution process of the aao accords with the model of electric fuleld dissolution
多孔有序阳极氧化铝膜的形成更符合“电场支持下的溶解”模型。 |
| 6. | The formation process , dynamic variation , deciduous causes of oxide film of work roll are analyzed , and the control methods have been put forward
分析了氧化膜的形成过程、动态变化及脱落原因,并提出了控制方法和措施。 |
| 7. | Through the ir transparent spectra , we found anion of anodizing electrolytes , also participate the formation of porous membrane during the anodizing procedure
通过ir光谱的谱线发现,在阳极氧化过程中,电解液中的阴离子也参与了多孔膜的形成。 |
| 8. | Anodization of high purity al foil in phosphoric acid solution at different pressures was experimentally studied to understand the formation mechanism of the nano - porous anodic alumina membranes
摘要为探讨多孔铝阳极氧化膜的形成机理,研究了不同气压条件下铝在磷酸溶液中的阳极氧化过程,发现在真空下进行阳极氧化,氧气析出非常明显。 |
| 9. | We make up a simple model based on the microscopic mechanism of the membrane to investigate this phenomenon . the model proves reasonable after we quantify the velocity of the pearls drift slowly towards the laser trap
对于此动力学行为,本文从膜的微观结构出发,建立了一个简单的模型,解释了珠链状膜的形成以及光镊熄灭后水珠的运动。 |
| 10. | The purpose of this study is to investigate the formation of liquid falling film and its flow behavior on the surface of a horizontal twisted and fluted tube used in the case of wet flue gas desulfurization , desalination , and so on
本文从理论上研究了水平螺旋槽管壁面液膜的形成机理及流动特性,为工业生产过程中高效换热器的应用提供理论基础。本文做的主要工作有: 1 |
