镀钴 meaning in Chinese
cobalt plating
Examples
- Research on interface mechanism of nickel foam substrate electrodeposited cobalt
镀钴泡沫镍基板界面机理研究 - The best parameters of electroless plating were observed . results demonstrated that by utilizing the ultrasonic into the electroless plating , the reaction can reacted in lower temperature and the self - decomposition of the solution can be prevented
对陶瓷粉末化学镀钴法制备金属陶瓷复合粉末的研究表明:通过在粉体化学镀中引入超声波,使得反应可以在较低温度下进行,防止了镀液的自分解。 - The objective of the paper is to get nano sisn ^ co composite powder of high quality by electroless plating at normal temperature . the rules were researched that the composition of electroless plating solution and reaction condition had an influence on the reaction of electroless plating of nano - si3n4 with ultrasonic wave . the best composition of electroless plating solution was obtained
本文以常温化学镀法制备高质量的纳米氮化硅?钴磷复合粉末为目标,研究镀液组分及其工艺参数对纳米氮化硅超声波化学镀钴的影响规律,得到了纳米氮化硅超声波化学镀的优化配方,制得了镀层均匀,分散性好的纳米复合粉末。 - To obtain the ultra fine atc ceramic with fine , uniform grain and high mechanical properties and solve the problem of brittle of ceramic , the technique of electroless cobalt plating under low temperature and ultrasonic was used to get a cobalt deposition on nano / micro al2o3 , tic ceramic . the nano / micro al2o3 - tic - co composite powder with different cobalt content was prepared by changing the load . the composite powder was then hot - pressed into a ultra fine composite ceramic
为了得到品粒细小、均匀,力学性能优异的co - al _ 2o _ 3 - tic ( atc )复合陶瓷,解决陶瓷的脆性问题,本文在化学镀钴制备高性能atc复合陶瓷的基础上,采用超声波化学镀方法,以提高钴在陶瓷粉末以及al _ 2o _ 3与tic陶瓷颗粒之间的分布均匀性,以期进一步提高atc陶瓷的力学性能。 - Through parallel experiments , the rules were studied more that the composition of electroless plating solution and reaction condition affected on the reaction of electroless cobalt plating of nano - sian4 with ultrasonic wave , such as " induction period " , the speed of reaction , appearance and morphology of composite powder , the component and phases of the plating et al
通过对比实验,分别就镀液组分及其工艺参数对纳米氮化硅化学镀钴反应孕育期、反应速度、复合粉末外观、形貌,镀层成份及相结构的影响规律进行了深入研究。孕育期是反映化学镀液质量,影响化学镀效率的重要参数。