Effects of technological conditions on properties of inert anodes of Ag/NiFe_2O_4 cermet;
合成工艺对Ag/NiFe_2O_4惰性阳极性能的影响
Preparation of large scale NiFe_2O_4-10NiO/17Ni type inert anode for aluminium electrolysis;
大尺寸NiFe_2O_4-10NiO/17Ni型金属陶瓷惰性阳极的制备
Effect of on grain composition on properties of inert anodes;
原料粒度组成对铝电解惰性阳极性能的影响
The physical properties of the inert anodes based on perovskite-like Oxygen-Ceramic for Al electrolysis;
铝电解用惰性阳极钙钛矿陶瓷的物性探索
Preparation and properties of fiber/NiFe_2O_4 composite ceramic inert anodes
纤维/NiFe_2O_4复合陶瓷惰性阳极的制备及性能
Cold isostatic press sintering is adopted to prepare Co-Ni-xNiFe2O4 (x=5 %, 10 %, 15 % and 20 wt%) metal based inert anodes for aluminum electrolysis.
采用冷等静压-烧结的方法制备了铝电解用Co-Ni-xNiFe2O4(x=5%,10%,15%,20%,质量分数,下同)金属基惰性阳极,并对试样的导电性和抗腐蚀性进行了研究。
Some new processes and technologies for electronics finishing were introduced, such as wafer plating, electrochemical mechanical polishing, microelectro-mechanical system plating, copper plating using insoluble anode, platinized niobium electrode, lead and cadmium free eleclroless nickel, recycling of alkaline etching solution and reclaiming system of copper.
介绍了电子电镀中的若干新工艺新技术,如芯片电镀、电化学机械研磨、微机电系统电镀、不溶性阳极电镀铜、镀铂铌电极以及无铅无镉中磷光亮化学镀镍、碱性蚀刻液再生和铜回收系统等。
Even current distribution was obtained when insoluble anodes were employed in the plating tank.
在镀槽中采用不溶性阳极可获得均匀的电流分布;采用辅助槽时,能得到综合性能最好的锌-铁合金镀层。
Studies on Spinel-Based Inert Anodes for Aluminium Electrolysis and Oxide Membrane Inert Anodes on the Ni-plate;
铁锌尖晶石基铝用惰性阳极及镍基底氧化物膜惰性阳极的研究
Preparation and Properties Research on Co-Ni-xNiFe_2O_4 Inert Anode;
Co-Ni-xNiFe_2O_4惰性阳极的制备与性能研究
Simulation of heat balance in 5 kA grade aluminum reduction cell with inert anodes
5kA级惰性阳极铝电解槽热平衡仿真
The Preparation Methods and Performance Investigation of Inert Anodes in Aluminium Electrolysis;
铝电解惰性阳极材料的制备方法与性能研究
Preparation and properties of fiber/NiFe_2O_4 composite ceramic inert anodes
纤维/NiFe_2O_4复合陶瓷惰性阳极的制备及性能
One of The Ways to Actualize Industrialization of Inert Anode-Aluminum Electrolysis at Low Temperature
惰性阳极工业化实现的途径之一——低温铝电解
Study on Preparation Inert Anodes Used in Aluminum Electrolysis by Two-steps Sintering;
两步烧结制备铝电解惰性阳极材料的研究
Preparation and Research on Nano-NiO-Cu-NiFe_2O_4 Inert Anode;
纳米NiO-Cu-NiFe_2O_4金属陶瓷惰性阳极的制备与研究
Research of Cermet Inert Anode Materials for Aluminum Electrolysis;
金属陶瓷作铝电解惰性阳极材料的研究
Research on Cu-Al alloy inert anode for aluminium electrolysis in low-temperature system
低温体系中铝电解用Cu-Al合金惰性阳极的研究
The topic of inert anode is attentioned in aluminum electrolysis.
惰性阳极是铝电解行业比较关注且极富挑战性的课题。
The current researches of metal inert anode in China are presented primarily.
着重介绍了国内对金属陶瓷惰性阳极材料的研究现状。
The inert anode of NiFe_2 O_4 spinel is of semi-conductor materials, but it couldn't meet the need of inert anode for aluminum electrolysis.
镍铁尖晶石基惰性阳极属于高温半导体材料,在铝电解过程中其电导率不能满足要求.
Preparation and Investigation of Metals and Metal-Al_2O_3 Inert Anodes for Aluminum Production;
铝电解惰性金属阳极和金属—氧化铝阳极的研制与测试
tungsten inert gas welding
钨极惰性气体保护焊
TIG spot welding
钨极惰性气体保护点焊
gas tungsten arc welding
钨电极惰性气体保护焊
inert gas metal arc welding
金属极惰性气体电弧焊