Good metal and metal oxide films were produced by this method.
用于金属膜和金属氧化物膜的制备,已获得了很好的效果。
Therefore, formation of high valance vanadium oxide films was obtained.
因此,形成价态更高的钒氧化物薄膜。
The interaction between oxide films and silicon substrates is discussed.
本文对这些氧化物薄膜硅衬底的相互作用也进行了讨论。
Polycrystalline titanium oxide films are fabricated on silicon by thermally oxidizing titanium.
采用在硅上磁控溅射金属钛膜再热氧化的工艺制备了多晶氧化钛薄膜。
Objective: To know the effects of electrolyte and voltage on the property of anodic oxide films.
目的:了解电解质和电压因素对氧化膜成分、形态和稳定性能的影响。
The fabrication of thin oxide films has become a hot spot of research in physics of condensed matter.
氧化物薄膜的制备已经成为凝聚态物理学的一个研究热点。
The microstructure, the thickness and the composition of this oxide films were examined and measured.
研究了蓝色环氧化膜的微观结构和形貌,测量了表面膜厚度和成分。
The The results indicate that titanium oxide films have wide band gap and better blood-compatibility than LTIC.
研究表明,氧化钛薄膜具有宽禁带的半导体特性,血液相容性优于热解碳。
Nonohmic contacts may occur in a low voltage circuit as a result of oxide films or other non-linear connections.
非欧姆接触可能发生在由氧化膜形成的低压电路或其它非线性连接中。
The effect of process parameters on the chemical composition and structure of titanium oxide films were studied.
研究了工艺参数对氧化钛薄膜的结构及成分的影响。
This work demonstrates that the CSD technique has more advantages for fabricating complex oxide films such as CCTO.
这项工作表明化学溶液沉积法在制备复杂的氧化物膜上具有很大的优势。
At a critical temperature, vanadium oxide films undergo phase transition between metal phase to semi-conducting phase.
在某一特定的温度处,氧化钒薄膜发生金属-半导体相的转变。
The silicon oxide films on aluminum alloys matrix were prepared by chemical vapor deposition (CVD) in ambient pressure.
采用常压CVD方法在铝合金基底上制备出硅氧化合物陶瓷膜层。
P-type semiconductor zinc oxide films, process for preparation thereof, and pulsed laser deposition method using transparent substrates.
型半导体氧化锌薄膜,其制备方法,和使用透明基片的脉冲激光沉积方法。
The process can be applied for the surface treatment of copper and copper alloy parts with super-thick oxide films and has a good effect.
该工艺用于超厚氧化皮铜及铜合金零件表面处理,效果较好。
The effects of the composition and temperature of electrolyte, and the oxidation time on corrosion resistance of the oxide films were investigated.
分析了不同电解液组成、电解液温度及阳极氧化时间对其耐蚀性的影响。
Super-thick oxide films on copper and copper alloy parts heat-treated at high temperature make it very difficult for chemical polishing of the parts.
铜及铜合金制品经高温氧化后氧化皮过厚,进行化学抛光处理难度较大。
The tungsten oxide films by two methods were characterized by atomic force microscope, double-beam UV-VIS-NIR spectrophotometer and X-diffractometer.
本文分别用原子力显微镜、双束紫外可见分光光度计、X-衍射仪等表征了用以上两种方法制备的三氧化钨薄膜。
The results show that the film, greatly different from conventional oxide films in composition, morphology and structure, is a novel aluminum oxide film.
结果表明,该膜层的成分、形貌及结构与常规氧化膜有很大的区别,是一种新型铝氧化膜。
Acoustic emission (AE) technique is used in situ to monitor the cracking and spalling of oxide films in isothermal oxidizing stage and air-cooling stage.
用声发射(AE)技术对氧化膜在恒温氧化阶段和随后空冷阶段的开裂与剥落信号进行了实时监测。
A serial of technologies for oxide films growing, which is most fitful for the current etching and formation linkage line. The related mechanisms are also included.
研究了一系列与目前工业联动腐蚀、化成线具有良好兼容性的复合氧化膜生长技术,并对相关机制进行了详细研究。
Flexible transparent conductive oxide films have become a focus of research because of some unique advantages, such as light weight, flexibility, cost effective, etc.
柔性透明导电氧化物薄膜以其重量轻、不易碎、成本低等独特的优点而备受青睐,在塑料液晶显示、可折叠太阳能电池等领域得到广泛的应用。
WO_3 is probably the most promising one of various electrochromic materials due to its excellent electrochromic properties, especially the amorphous tungsten oxide films.
非晶态WO_3薄膜具有优良的电致变色特性,被认为是最有发展前景的功能材料之一。
Based on the results, the mechanism of the formation of blue circle oxide films is suggested as well as the remedies, which have been verified during the volume manufacture.
根据实验结果提出了蓝色氧化膜环的产生机理和消除措施,并在大规模生产中得到了验证。
Diethylene Triamine Penta Methylene Phosphonic Acid (DTPMP) is applied to hydration resistance treatment of anodic oxide films, which treating method is same as that of ATMP.
提出以二乙烯三胺五甲叉膦酸(DTPMP)为耐水合处理试剂,耐水合处理方法同ATMP。
The results showed that the hardness of oxide films increased from the surface to the substrate, because electrolyte corrosion between the internal and external surfaces was different.
结果表明:阳极氧化膜因内外表面受到电解液的腐蚀程度不同而表现为氧化膜的硬度自膜层表面到基体逐渐升高。
The results show that the electrochemical technology coupled with ultrasonic actions can remove oxide films rapidly at room temperature and renew the metallic luster of stainless steel.
试验结果表明:辅以超声波作用的电化学技术可以在常温下快速去除不锈钢表面的高温热处理致密氧化皮,恢复了不锈钢的金属色泽表面。
However, the excessive refinement of grains resulted in the growth stress increase of the oxides film and then the oxide films cracked and shed; as a result, the oxidation was exacerbated.
但晶粒过细时,导致氧化膜内生长应力的增加,引起氧化膜的开裂、脱落,从而加剧了氧化。
Nickel oxide films are now considered to have excellent electrochromic performance, which can be used as electrochromic films and also as the ion storage electrode in electrochromic devices.
氧化镍薄膜是目前发现的性能最好的电致变色材料之一,它不仅能够用作电致变色薄膜,还可以作为电致变色器件的离子存储电极。
Therefore, it is very important to investigate anodic aluminum oxide films. In this paper the structure and preparation methods of porous aluminum oxide templates as well as the synthesis an...
阳极氧化铝膜具有独特的多孔结构,可作为制备各种纳米功能材料的模板,因而在纳米功能材料制备中占有重要地位。
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