惰性阳极

Co-Ni-xNiFe2O4惰性阳极的制备与性能研究

Preparation and Properties Research on Co-Ni-xNiFe_2O_4 Inert Anode

铝电解用Fe-Ni-Co-Al2O3金属陶瓷惰性阳极

Fe-Ni-Co-Al_2O_3 Cermets Inert Anode for Aluminum Electrolysis

纤维/NiFe2O4复合陶瓷惰性阳极的制备及性能

Preparation and properties of fiber / NiFe_2O_4 composite ceramic inert anodes

Ag含量对NiFe2O4基金属陶瓷惰性阳极性能的影响

Effect of content of Ag on properties of inert anodes of NiFe_2O_4-based cermet

铝电解用NiFe2O4型金属陶瓷惰性阳极的研究进展

Progress in Studies on the NiFe_2O_4 Spinel Based Cermet Inert Anodes

SiC晶须增强NiFe2O4基惰性阳极材料烧结工艺研究

Study on sintering technique of NiFe_2O_4 / SiC_w used as matrix of inert anodes

NiFe2O4/Ag惰性阳极的熔盐腐蚀性能

Molten salt corrosion property of nife_2o_4 / ag inert anodes

NiFe2O4惰性阳极的制备及其电解腐蚀机理

Preparation of nife_2o_4 inert anode and its electrolysis corrosion mechanism

NiFe2O4基铝用惰性阳极的试制

Trial Production of NiFe_2O_4-Based Inert Anodes in Aluminium Electrolysis

惰性阳极基体材料NiFe2O4尖晶石的研制

The study of making NiFe_2O_4 spine used as basic material of inert anode

NiFe2O4合成工艺对惰性阳极力学性能及电导率的影响

Effect of Synthesizing Process of NiFe_2O_4 on Mechanics Properties and Conductivity of Inert Anode

因此，用化学共沉淀法制备NiFe2O4惰性阳极用陶瓷粉末原料是可行的。

Therefore , it is practicable to fabricate NiFe_2O_4 powder made by chemistry co-deposition method .

本论文主要研究铝电解中能够代替碳素阳极的NiO-NiFe2O4基金属陶瓷惰性阳极。

This paper mainly studies NiO-NiFe_2 O_4 based ceramics inert anode which can replace plain carbon anode material in the aluminum electrolysis .

MnO2对镍铁尖晶石惰性阳极材料性能的影响

Effect of MnO_2 on properties of inert anode of NiFe_2O_4 spinel

掺杂MnO2对铁酸镍陶瓷惰性阳极性能的影响

Effect of MnO_2 Doping on Properties of Nickel Ferrite as Inert Anode

冰晶石-氧化铝熔体中SnO2基惰性阳极上氧的超电压

Oxygen Overvoltage on sno_2-based inert anodes in naf-aif_3-ai_2o_3 melts

MnO2添加剂对镍铁尖晶石基惰性阳极耐腐蚀性的影响

Effect of MnO_2 Addition on Corrosion Resistance of Nickel-Ferric Spinel Based Inert Anode

低温体系中铝电解用Cu-Al合金惰性阳极的研究

Research on Cu-Al alloy inert anode for aluminium electrolysis in low-temperature system

ZnFe2O4基惰性阳极在微型槽铝电解中的腐蚀行为

Corrosion of ZnFe_2O_4-Based Inert Anode in Micro-Cell of Aluminum Electrolysis

预烧温度对掺杂TiO2、MnO2的镍铁尖晶石惰性阳极微观形貌和性能的影响

The Effects of Presintering Temperature on Microstructure and Properties of Inert Anodes of NiFe_2O_4 Spinel with Additives TiO_2 , MnO_2

铝电解惰性阳极用Ni-Zn铁氧体的固态合成

Solid state reaction synthesis of Ni_ ( 1-x ) Zn_xFe_2O_4 spinel used as matrix of inert anodes in aluminium electrolysis

本文采用粉末冶金法和熔铸法对惰性阳极导杆材料的成分进行研究，探讨了几种Ni基合金在高温下的氧化过程及机理，并采用电解实验方法考察极端条件下材料的氧化腐蚀行为。

Powder Metallurgy ( PM ) and casting are chosen to prepare specimens of connecting bar . The oxidation process and mechanism of several Ni-based alloys were investigated . The corrosion resistance of alloy was studied under the condition of electrolysis .

以Fe2O3和NiO为主要原料，添加2%（按质量计）MnO2，采用固相烧结工艺制备了NiFe2O4惰性阳极。

NiFe _ 2O_4 inert anodes were prepared by the solid-state sintering method using Fe_ 2 O_ 3 and NiO as the main raw materials with 2 % in mass of MnO_2 powder added .

本文首先系统地综述了锌电积用惰性阳极材料的研究现状，并根据基体材料不同，重点阐述了铝基合金阳极和尺寸稳定型阳极（DSA）。

In this paper , study status of inert anode for zinc electrowinning is systematically summarized , firstly . According to different base material , the lead-base alloy anode and dimensionally Stable Anode ( DSA ) are elaborated .

5kA级惰性阳极铝电解槽热平衡仿真

Simulation of heat balance in 5 kA grade aluminum reduction cell with inert anodes

制备了以Ni2O3、NiO为基体的5种金属陶瓷材料作为铝电解惰性阳极。

Five kinds of Ni 2O 3-based and Nio-based cermet materials were prepared and used as inert anode of the aluminium electrolysis .

采用传统粉末冶金技术制备了铝电解用CuNiFe2O4和NiNiFe2O4金属陶瓷惰性阳极，并对其在Na3AlF6Al2O3熔体中的腐蚀行为进行了研究。

The cermet inert anodes with the compositions of Cu-NiFe_2O_4 and Ni-NiFe_2O_4 were developed by classical powder metallurgical technique respectively . The corrosion behaviors of NiFe_2O_4-based inert anodes in Na_3AlF_6-Al_2O_3 melts were investigated .

为改善铝电解惰性阳极用NiFe2O4尖晶石材料存在的不足，采用热压烧结的方法制备了不同金属Ag含量的AgNiFe2O4金属陶瓷。

In order to improve deficiencies of NiFe_2O_4 spinel used as matrix of inert anode in aluminium electrolysis , Ag-NiFe_2O_4 cermets with different mass percent of Ag were prepared by the hot-pressed .

结果表明，采用惰性阳极，理论分解电压按Nd2O3、NdF3、LiF顺序依次增大，温度升高，理论分解电压降低；

The results indicate that the EMF in inactive anodes increases in sequence of Nd 2O 3 , NdF 3 and LiF , and that it drops with rising of temperature .

采用灰关联分析方法解析了铝电解5%NiNiFe2O4基金属陶瓷惰性阳极的电解腐蚀率与电解参数的关系，建立了预测惰性阳极腐蚀率的人工神经网络模型。

The corrosion rates of 5 % Ni-NiFe_2O_4 inert anodes were investigated as a function of main operating parameters by grey relational analysis .