微弧
- 网络Micro-Arc
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基于PLC的微弧氧化电源控制系统研制
Development of Control System of Micro-arc Oxidation Power Supply Based on PLC
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SiCp/ZL109铝基复合材料微弧氧化层的微观组织特征
Microstructure characterization of micro-arc oxidation treated SiC_p / ZL109 aluminum matrix composites
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SEM测试发现,所有涂层都呈现微弧氧化涂层典型的多孔状形貌。
SEM results show that all coatings are typically porous .
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Na2WO4对铝合金表面微弧氧化陶瓷层性能的影响
Effect of Na_2WO_4 on properties of micro-arc oxidation ceramic coatings on aluminum alloy
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Nd对镁合金微弧氧化陶瓷层厚度及表观质量的影响
The Influence of Neodymium on Thickness and Surface Quality of Micro-arc Oxidation Ceramic Coating
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以Ti为阳极研究了微弧放电对污水的处理效果,发现放电条件下对甲基橙的脱色效果显著。
The effect of micro-arc discharge of the Ti anode on the decolorization of methyl orange was studied .
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通过对镁合金微弧氧化膜层运用SEM、XRD等测试手段,来分析膜层表面的微观形貌和相组成。
SEM and XRD analyses were used to examine the morphology and phase constitute of the MAO coatings .
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微弧氧化电源IGBT驱动和保护研究
Research of IGBT driving and protection in MAO source equipment
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添加Na2WO4对镁合金微弧氧化陶瓷层成分及结构的影响
Influence of Addition Na_2WO_4 on the Phase Constituent and Structure of Magnesium Alloy Micro-arc Oxidated Ceramic Layer
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结果表明,微弧氧化TiO2膜主要由钛和锐钛矿TiO2组成,TiO2膜的光催化性能与电解时间有关。
The results show that the titanium oxide film is mainly made of titanium and anatase .
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研究结果表明,所制备的微弧氧化试件表面的陶瓷膜主要由γ-Al2O3组成。
The results indicate that the main phase consists of γ - Al_2O_3 in the MAO surface .
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电压和时间对微弧氧化法制备的TiO2陶瓷薄膜的光催化性能的影响
Oxidation Conditions of Ti and Photocatalysis of TiO_2 Ceramic Films
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Ag沉积对微弧氧化TiO2/Ti膜光催化性能的影响
On effect of silver deposition on photocatalytic activity of TiO_2 / Ti using micro-arc oxidation
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并在电源参数研究的基础上,研究了TiO2对镁合金微弧氧化的影响。
Furthermore , the influence of TiO2 sol on the MAO of magnesium was also be studied .
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微弧氧化处理对TiAl合金抗氧化性能的影响
Effect of micro arc oxidation treatment on oxidation resistance of TiAl Alloy
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本文采用微弧氧化处理的方法成功地在AZ31Mg合金表面制备了含Ca、P的陶瓷层。
Ceramic coatings containing Ca and P have been successfully formed on the surface of Mg alloys by Micro-arc oxidation ( MAO ) in this paper .
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微弧氧化(Micro-arcoxidation,MAO)是一种在有色金属表面原位生长陶瓷层的表面处理技术。
Micro-arc oxidation is a metal surface in-situ growth of the ceramic layer surface treatment technology .
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添加剂对TiAl合金微弧氧化膜耐磨性的影响
Effect of Additives on Wear Resistance of Micro-arc Oxidation Coating on TiAl Alloy
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研究了溶液电导率以及电流密度对Al合金微弧氧化陶瓷层生长过程和厚度的影响。
The effects of the electrolyte conductance and current density on the growth process and thickness of MAO ceramic coating of aluminum alloy were studied .
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结果显示,较高的阳极电压和较长的微弧氧化时间有利于制备光催化性能优良的TiO2陶瓷薄膜。
The results show that higher oxidation voltage and longer oxidation time considerably improve photo-catalysis of the TiO2 ceramic films .
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电参数对钛合金微弧氧化法制备TiO2生物陶瓷涂层的影响
Effect of Electrical Parameters on Preparing TiO_2 Bioceramic Coatings on Titanium Alloy by Micro-arc Oxidation Technique
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汽轮机叶片钢高能微弧沉积316L不锈钢涂层的试验研究
Deposition of Stainless Steel 316L onto Steam Turbine Blades by High-energy Micro-arc Process
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而对微弧氧化负载的研究发现,它具有很强的容性,可用RC拓扑结构来等效。
The studies of load on the micro-arc oxidation have found that it is highly capacitive , equivalent to the RC topology .
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结果发现:微弧氧化方法适合于Ti在甘油磷酸钠和醋酸钙电解液中形成富含有Ca和P的氧化膜。
It was found that the MAO method is suitable for Ti to form oxide film containing Ca and P in the electrolyte of β - GP and CA.
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阴极电流密度对微弧氧化ZrO2陶瓷膜及耐蚀性的影响
Effect of Cathode Current Density on Coating of ZrO_2 Prepared by Micro-arc Oxidation
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SiO3~(2-)对TiAl合金微弧氧化陶瓷层的影响
The Effect of SiO_3 ~ ( 2 - ) on Micro-Arc Oxidization Ceramic Layer of TiAl Alloy
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另外,对大气环境中,有NaCl液滴存在时,镁合金及微弧氧化试样表面短期的腐蚀行为进行了初步的比较研究。
In addition , the corrosion behaviors of MAO treated and untreated Mg alloy with a NaCl droplet were compared in atmosphere .
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利用扫描电镜(SEM)和盐雾腐蚀试验等手段,研究了镁合金微弧氧化陶瓷层不同生长阶段的形貌特征及耐蚀性。
SEM and salt spray test were employed to characterize the surface morphology and corrosion resistance of ceramic coatings formed by micro arc oxidation on magnesium alloy .
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微弧氧化法直接合成CaTi4(PO4)6生物陶瓷膜
Direct synthesis of CaTi_4 ( PO_4 ) _6 bio-ceramic film by micro-arc oxidation
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SiO2溶胶封孔剂可浸入镁合金微弧氧化膜的微孔,形成有效封孔。
It could be observed that the SiO_2 sol sealing agent fills up the hole of micro-arc oxidation coating on magnesium alloy .