多层复合镀层具有良好的结合强度。
Multilayer composite coatings have good connective strength.
讨论了复合镀层的物理、化学性能。
The physical and chemical properties of composite coating were invesTigated.
对复合镀层表面形貌和结构进行了分析。
Surface morphology and microstructure of the coatings were investigated.
结果表明,碳纳米管提高了复合镀层耐蚀性。
The results indicate that the carbon nano-tube improves the corrosion resistance of the compound coating.
在此,介绍了电沉积复合镀层的分类、特性及应用。
Herein, classification, characteristics and application of electrodeposited composite coatings were reviewed.
实验结果表明,复合镀层具有较高的硬度和耐磨性。
The experimental results show that, the composite coatings have higher hardness and wear resistance.
复合镀层主要用于提高金属表面的耐蚀性和耐磨性。
Composite electrodeposits have been principally used to improve the corrosion resistance and wearability of metal surface.
结果表明:该复合镀层附着性好,有较强的耐蚀性能。
Results show that the co-composite coating possess excellent adhesion and corrosion resistance.
将镀层设计为多层复合镀层,从而使其具有更优良的性能。
Multilayer composite coating is designed and better performance is achieved.
结果表明:纳米颗粒的加入使复合镀层组织明显细化和致密。
The results show that the microstructure of nano composite coatings is obviously fined and compacted because of containing nano-particles.
结果表明:脉冲复合镀层的抗高温氧化性比直流复合镀层优异;
The oxidation resistance of pulse composite coating was better than that of direct current composite coating.
研究了多种表面活性剂对纳米复合镀层中的纳米颗粒分散性的作用;
The action of surfactant on the dispersion of nanometer particles has been researched in the electroless composite depositing process.
考察了该复合镀层微动磨损性能,并与基体微动磨损性能进行了比较。
The fretting wear properties of the composite coating was investigated and compared with that of steel substrate.
改变基质金属与第二相粒子的组合,可获得一系列性能各异的复合镀层。
Composite coatings with different characteristics may be obtained by variation of metallic matrix in combination with different particles.
纳米复合镀层的磨损机制以疲劳磨损为主,而纯镍镀层以粘着磨损为主。
The wear mechanism of the nano-composite coatings were mainly fatigue wear and that of the pure nickel coating was mainly adhesion wear.
复合镀层由于具有优异的耐磨性、耐蚀性、自润滑等性能而受到广泛关注。
Composite coatings are widely concerned about due to their excellent anti-corrosion, anti-wear and self-lubricating properties, etc.
结果表明,采用正交法得出的工艺参数进行刷镀,复合镀层的综合性能良好。
The results indicate that the composite coatings prepared by the orthogonal test process show good comprehensive properties performance.
探讨了超声—电沉积复合作用的机理,总结出影响复合镀层生成的几个因素。
The mechanism of the compound effects of ultrasonic-electrodeposition was discussed, and several factors that have effected on the formation of the composite layer were concluded.
本工艺方法所制得的复合镀层具有分布均匀、结合力牢固、耐蚀性能好等优点。
The composite coating obtained with this process has such advantages as even distribution, high bonding strength, good corrosion resistance, etc.
通过镀覆工艺参数的调节,控制复合镀层基体结构,促使其逐渐向非晶态过渡。
The matrix of composite coatings is turned into amorphous structure again after some technologic factors are adjusted.
研究比较了电沉积钴磷层和钴磷基碳纳米管复合镀层的物理特性和电化学性质。
The mechanical properties and corrosion behavior of Co-P-CNT composite deposits are compared with those of Co-P coating.
此外,纳米碳管的加入,使镀层由非晶变成了纳米晶,促进了复合镀层的晶化。
Moreover, adding carbon nanotubes not only improves the degree of crystallization for the composite deposit but also helps their transformation from the amorphous state to the nanocrystal state.
利用电沉积技术,在A3钢片上制备了含有微米级空心微珠粒子的镍基复合镀层。
The Nickel micron hollow tiny pearl composite coating on A3 steel substrate was prepared by electrodeposition technique.
本文主要对近几年国内外在镍基自润滑复合镀层方面取得的研究成果进行了概述。
In this paper, the research achievements on self-lubricating nickel-based composite coatings in recent years are overviewed.
对纳米陶瓷微粒及自润滑纳米粉改性的非晶纳米复合镀层的摩擦学性能进行了综述。
The tribological property of the composite coatings modified with nanometer ceramic particles and self lubrication nano-powders is overviewed.
研究了化学复合镀纳米金刚石粉的不同施镀工艺,并分析了复合镀层的性能和结构。
The process of Ni-P nanometer diamond composite electroless plating was studied. The structure and hardness of the composite coating were analysed.
基于超声电沉积复合作用,研究在金属表面获得纳米金属陶瓷复合镀层的基本工艺。
Based on the action of ultrasonic-electrodepositing, the technique of preparating nanocermet(Ni-SiC) composite layer on the surface of metal substrates was studied.
研究了在镍钴合金镀液中加入碳化钨微粒形成镍-钴-碳化钨复合镀层的共沉积过程。
Composite electrodeposits of nickel-cobalt-tungsten carbide were prepared by adding tungsten carbide particles in the nickel-cobalt alloy solution.
研究了在镍钴合金镀液中加入碳化钨微粒形成镍-钴-碳化钨复合镀层的共沉积过程。
Composite electrodeposits of nickel-cobalt-tungsten carbide were prepared by adding tungsten carbide particles in the nickel-cobalt alloy solution.
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