在钛合金表面用微等离子体氧化能产生一层陶瓷膜。
A layer of ceramic film can be grown on ti alloy by the micro plasma oxidation.
利用液体排除法实验测定了多孔陶瓷膜的孔径分布。
A test apparatus, based on the principle of liquid liquid displacement porometry was established for determining pore size distribution of inorganic membranes.
对陶瓷膜处理乳化悬浮液过程中膜清洗工艺进行了研究。
The cleaning process of ceramic membranes used in treating emulsified suspension was studied.
用自行研制的微弧氧化电源在锻铝表面生成了氧化物陶瓷膜。
This paper introduces the forming of ceramic oxide coating on the surface of forged aluminum alloy with the microarc oxidation power made by ourselves.
陶瓷色料组成和运用该色料的玻璃板上形成彩色陶瓷膜的方法。
Ceramic color composition and method of forming ceramic color film on glass plate using same.
通过SEM和XRD分析了黑色陶瓷膜层的微观形貌和相结构。
Morphology and phase structure of the black ceramic coatings were also investigated by XRD and SEM.
SEM结果表明,陶瓷膜完整连续,与基体呈犬牙状牢固结合。
SEM results showed that the ceramic coating was well bonded with the substrate.
该方法所得陶瓷膜层光滑平整,具有好的耐磨性及抗高温氧化性。
The ceramic coatings obtained are smooth and level, and have good wearability and resistance to oxidation at high temperature.
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。
The silicon oxide films on aluminum alloys matrix were prepared by chemical vapor deposition (CVD) in ambient pressure.
采用氢氧化镁吸附与陶瓷膜微滤相结合进行活性染料废水脱色处理。
The decolorization of dyeing and printing wastewater by ceramic membrane microfiltration combined with adsorption of magnesium hydroxide was studied.
观察、分析了镀铝层表面微弧氧化陶瓷膜的微观形貌以及组织结构;
The morphology and the structures of the micro arc oxidation ceramic layer was observed and analyzed.
混合导体透氧膜是一类同时具有电子和氧离子两类导电性的陶瓷膜。
Mixed-conducting oxygen permeable membrane is a kind of ceramic membrane, which exhibits both electronic and oxygen ionic conductivity.
目的研究无机陶瓷膜微滤耦合超声技术在痹通药酒澄清过滤中的应用。
Objective To study the application of inorganic ceramic membrane microfiltration coupled with ultrasonic in the process of refining Bitong medicinal liquor.
用微等离子体氧化法在钛金属基体上制备钛酸锶钡(BST)陶瓷膜。
Barium strontium titanate (BST) ceramic film is prepared on titanium substrate by micro-plasma oxidation.
本文对氢氧化镁吸附-陶瓷膜微滤处理印染废水的膜再生方法进行研究。
The regeneration of ceramic micro-filtration membranes for in treatment of printing and dyeing wastewater as studied.
复合或陶瓷膜目前,复合材料技术的进步已可制造具有各种独特特性的膜。
Composite OR Ceramic membranes Recently, advances in composite material technology have allowed membranes to be made with unique properties.
为提高钛合金的耐腐蚀性能,在其表面用微等离子体氧化法生长一层陶瓷膜。
A layer of ceramic film is produced by micro plasma oxidation on the surface of ti alloy in order to improve its corrosion resistant property.
研制多孔微滤陶瓷膜,试验研究了这种微滤陶瓷膜过滤去除废气中微尘的效果。
The porous ceramic membrane is prepared and utilized to remove micro-dust from waste gas in test scale.
结果:样品经无机陶瓷膜精制后,薄层层析分离效果好,斑点清晰,特征性强。
Results: the spots in chromatography are clear with marked characteristics in the solution after the membrane process.
与有机膜相比,无机陶瓷膜具有耐高温、耐腐蚀、易洗清、使用寿命长等优点。
Compared with organic membrane, inorganic ceramic one has some advantages, such as resistant to high temperature and corruption, easy for cleaning, long life span.
同时根据陶瓷膜的分离机理和分离特性,对孔梯度陶瓷膜的孔梯度结构进行设计。
The structure of the membrane was then designed according to the separation mechanism and precision.
氧吸收或氧化对金属电阻膜、合金电阻膜及金属陶瓷膜的影响及作用机理差别很大。
The effects of oxygen absorption and oxidation on the resistor films of metal, alloy and cermet, and their operation mechanism are quite different.
在钢铁表面进行微弧氧化,原位生成陶瓷膜,国内还没有人研究,国外研究的也很少。
Using micro-arc oxidation on steel in-situ synthesis ceramics coating, nobody study this at home, also few people study abroad.
结果表明:采用三种不同波形均可在镁合金表面得到一层光滑致密褐色系列的类陶瓷膜。
The results show that a series smooth and dense brown ceramic films layer can be obtained by using these waveforms.
本研究采用常压化学气相沉积(CVD)的方法在金属铝基底上制备出硅氧化合物陶瓷膜层。
A new kind of silicon oxidic film on aluminum was prepared by chemical vapor deposition (CVD) in ambient pressure.
无机陶瓷膜由于其耐高温、耐化学腐蚀、耐生物侵蚀等特性,因而在油脂工业有着广泛的应用前景。
The inorganic ceramic membrane has prosperous prospect in oil industry because of its unique advantages such as thermal, chemical, solvent and microbiological resistance compared with organic one.
无机陶瓷膜由于其耐高温、耐化学腐蚀、耐生物侵蚀等特性,因而在油脂工业有着广泛的应用前景。
The inorganic ceramic membrane has prosperous prospect in oil industry because of its unique advantages such as thermal, chemical, solvent and microbiological resistance compared with organic one.
应用推荐