Graphite phase is deposited in the process of ZL108 micro arc oxidation.
在ZL 10 8微弧氧化过程中,实现了石墨相的沉积。
Deposition ZL301 on ZM5 magnesium alloy surface by high energy micro arc process was performed.
使用高能微弧火花沉积机在ZM 5镁合金表面上沉积zl30 1合金。
The formula of micro arc oxidation technology needs to be improved for its electrolyte stability.
微弧氧化技术由于电解液的稳定性而需要进行配方改进。
The morphology and the structures of the micro arc oxidation ceramic layer was observed and analyzed.
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;
Ceramic coating was obtained by micro arc oxidation on the substrate of casted aluminum silicon alloy.
用微弧氧化的方法在铸造铝-硅合金基体上获得陶瓷层。
The effect of process parameters on the electric insulance of micro arc oxidated ceramic coat on aluminium plate is studied.
研究了工艺参数对铝微弧氧化陶瓷层电绝缘性能的影响规律。
The corrosion resistance of micro arc oxidation ceramic coating is better than the corrosion resistance of chromate and anode coating.
微弧氧化陶瓷层的耐蚀性优于阳极氧化和铬化处理膜层的耐蚀性。
According to different oxidation conditions, anodic oxidation can be divided into general anodic oxidation, micro arc oxidation, the formation of titanium dioxide nanotubes.
根据氧化条件的不同,阳极氧化又可以分为一般阳极氧化、微弧氧化、二氧化钛纳米管的形成。
On the base of the program pre-reading and the smooth algorithm between lines for micro-beeline machining of CNC milling, the arc smooth algorithm with linear transformation is brought forward.
在数控铣微直线加工程序预读、直线段间平滑算法的基础上,提出了线性变换圆弧平滑算法。
The ceramic treatment for the first ring groove of ZL108aluminum alloy piston was conducted with micro-arc oxidation technique.
利用微弧氧化技术对ZL 108铝合金活塞第一道环槽进行了陶瓷化处理。
Using commercial sodium silicate as electrolyte, aluminum surface was treated with plasma micro-arc oxidation under alternate current, film thickness increased with the increase of voltage.
以工业级硅酸钠为电解液,铝材在交流电压作用下进行等离子微弧氧化反应,电压升高,膜厚增大。
The process progress for magnesium alloy surface treatment technology include conversion coating, anodizing, micro-arc oxidation, electrochemical plating, ion implantation etc was summarized.
综述了镁合金表面处理技术的工艺进展,主要包括化学转化膜、阳极氧化、微弧氧化、金属涂层、离子注入等技术。
Plasma micro-arc oxidation (PMAO) is a newly developd technique for preparing ceramic coatings on metal surface.
等离子微弧氧化是一种新兴的材料表面陶瓷化技术。
The mapping model of film thickness of micro-arc oxidation(MAO) on magnesium alloys is built on BP neural network with three layer structure.
选择三层结构的BP神经网络,建立镁合金微弧氧化膜厚的映射模型。
The effects of positive and negative voltage on phase constitution of ceramic coating on aluminum alloy prepared by micro-arc oxidation were studied by XRD analysis.
通过XRD分析,研究了正向、负向电压对铝合金微弧氧化陶瓷层相组成的影响。
In this way, first of all the machined contour curve must be divided in many micro-sections of line or arc, and then node coordinates are found.
这样首先必须将要加工的轮廓曲线划分成微小的直线段或圆弧段,而后求出其节点坐标。
The effect of solutions, electrical parameters and the manipulative mode of electrical parameters on the process of micro-arc oxidation and micro-arc oxidation ceramic layers was studied.
研究分析了溶液体系、电源参数以及电源参数的控制方式对微弧氧化过程和微弧氧化陶瓷层的影响。
The article discussed the feasibility of micro-plasma arc welding Co-Cr alloy for oral cavity repair.
试验研究了钴铬合金口腔修复材料微束等离子弧焊的可行性。
Using micro-arc oxidation on steel in-situ synthesis ceramics coating, nobody study this at home, also few people study abroad.
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。
The effects of oxidation time on the density, thickness and corrosion resistance of the micro-arc oxidation coatings of MB8 magnesium alloy were investigated.
研究氧化时间对MB8镁合金氧化膜致密度、厚度和耐蚀性的影响,分析不同氧化时间膜层表面微观形貌、成分和结构的变化。
Firstly, the study situation of micro-arc oxidation of aluminum alloys and technical advantages were summarized.
概述了铝合金微弧氧化技术的研究现状,探讨了其优越性。
The effects of different electrolyte systems and different stain on the color of ceramic coating were investigated, and the basis composition of the micro-arc oxidation electrolyte were established.
研究了不同电解液体系和不同着色剂对氧化膜颜色的影响,确定了制备彩色膜的基础电解液组成。
Plasma micro-arc oxidation PMAO)is a novel technique, which can in-situ form the ceramic coatings on the surfaces of some non-ferrous metals.
等离子体微弧氧化是一种直接在有色金属表面原位生长陶瓷膜的新技术。
Plasma micro-arc oxidation PMAO)is a novel technique, which can in-situ form the ceramic coatings on the surfaces of some non-ferrous metals.
等离子体微弧氧化是一种直接在有色金属表面原位生长陶瓷膜的新技术。
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