铝电解用NiFe2O4-10NiO基金属陶瓷惰性阳极的耐腐蚀性能

制备铝电解用NiFe2O4-10NiO基金属陶瓷惰性阳极,并在实验室电解槽中考察其电解腐蚀性能。结果表明,电解过程中虽然惰性阳极在960°C熔盐电解质中表现出优异的耐腐蚀性能,但采用XRD、SEM/EDX和金相分析其物相组成和微观结构后发现,电解后阳极中的金属相发生了优先腐蚀,在阳极表面产生大量孔洞。NiFe2O4相中的 Fe 元素的优先溶解可能导致 NiFe2O4晶粒的不均匀腐蚀。溶解在电解液中的 Al2O3与阳极中的 NiO 或FeO 发生反应生成的 NiFe2O4-NiAl2O4-FeAl2O4相对 NiO 相的吞并以及体积膨胀,阳极表面形成致密的NiFe2O4-NiAl2O4-FeAl2O4保护层。因此,致密的NiFe2O4-NiAl2O4-FeAl2O4保护层可以阻挡阳极表面金属相的损失和陶瓷相的腐蚀。     

Effect of additive on corrosion resistance of NiFe2O4 ceramics as inert anodes

In order to improve the corrosion resistance of NiFe2O4 ceramics as inert anode, additive V2O5 was added to raw materials NiO and Fe2O3. The inert anodes of nickel-ferrite ceramics were prepared by powder metaUurgic method and the static corrosion rate in Na3AlF6-Al2O3 was determined by mass loss measurement. The effect of V2O5 on sintering property and corrosion resistance was studied. The results show that V2O5 can promote the grain to develop completely and improve sintering property. EDS results show the reaction product Ni2FeVO6 distributes along the grain boundary. The corrosion tests show that V2O5 is beneficial to improving corrosion resistance remarkably. The reasons that V2O5 can improve the corrosion resistance must be V2O5 promoting the gains to develop completely and Ni2FeVO6 distributes along the grain boundary. The stable structure can control the chemical dissolution of ceramics anode and the reinforced grain boundary can control the grain-boundary corrosion rate.     

Preparation and preliminary testing of cermet inert anode for aluminum electrolysis

1　INTRODUCTIONAluminumhasthelargest productivityamongthenonferrousmetals ,2 4Mtperyearintheworld .Whilegreatprogresshavebeenmadeintheprimaryaluminum production ,theindustrycontinuestopur sueresearchtosolvesomeformidablechallenges ,suchas quitealargeenergyintensity(14 0 0 0 15 0 0 0kW·hpertonaluminum) ,highcon sumptionofcarbonanode(5 0 0 6 0 0kgpertonalu minum) ,significantemissionsofgreenhousegas(1.71tpertonaluminum )andotherdetrimentalgases ,highcapitalinvestmentandcost[1] .Inertelectr…     

氧化银对惰性阳极耐熔盐腐蚀性能的影响

以Fe2O3、NiO和Ag2O为主要原料,采用固相烧结工艺制备了NiFe2O4/Ag惰性阳极,用X射线衍射和扫描电子显微镜对材料的组成和微观结构进行了研究,采用水冷法测量了样品的抗热震性,并测量了其在冰晶石熔盐中的电解腐蚀速率。结果表明:Ag2O的加入提高了样品的抗热震性,降低了惰性阳极试样在冰晶石熔盐中的电解腐蚀速率,当Ag2O含量为6%时,试样的电解腐蚀速率最低。     

Microstructural evolution of NiFe2O4-10NiO powder prepared by high temperature solid state reaction

1 Introduction The development of inert anode materials for aluminium production has gained considerable attention in recent years[1,2]. The significance of such anodes is the ability to produce environment-friendly O2 gas during electrolysis instead of g…     

NiFe2O4基金属陶瓷惰性阳极的腐蚀研究进展

综述了近年来国内外铝电解用NiFe2O4基金属陶瓷惰性阳极在阳极组元的溶解与分布、腐蚀率的预测与测定以及氧化物和金属相对阳极腐蚀的影响三个方面所做的研究工作。     

电解质对铝电解用阳极润湿性的研究

测试了熔融状态下三种不同组分的电解质对碳阳极和自制的镍铁尖晶石基金属陶瓷惰性阳极的润湿性.实验结果表明,电解质对惰性阳极的润湿性明显好于对碳阳极的润湿性,不同电解质成分对阳极的润湿角有一定影响.工业冰晶石中加入Al2O3能够改善电解质对阳极的润湿性,添加剂CaF2对提高电解质对惰性阳极的润湿性基本没有贡献.     

高能球磨法制备NiFe2O4基惰性阳极

本文以NiO和Fe2O4为主要原料,采用机械化合两步烧结法制备NiFe2O4基金属陶瓷试样。研究了球磨时间、助磨剂含量、球磨转速对制备前驱体粒度的影响,并利用X射线衍射和扫描电子显微镜等进行表征。结果表明,球磨参数越好,粉体颗粒越细,提高冷等静压压坯的致密度、降低试样烧结温度,最终提高惰性阳极试样密度,改善试样的导电性和抗腐蚀性等性能并达到保护环境、节约能源的效果。本实验制备惰性阳极球磨阶段最佳球磨条件为：助磨剂含量150ml、球磨时间6h、球磨转速300r／min,此条件下制得了体积密度为5．68g／ml的阳极试样。     

电镀Al-Mn合金及后续阳极氧化对镁合金防护性能的影响

为提高镁合金的耐腐蚀性能,采用无机熔盐电镀技术在镁合金表面电镀铝锰合金,其后在草酸溶液中对铝锰合金镀层进行阳极氧化处理,以制备耐蚀性优良的阳极氧化膜。采用扫描电镜(SEM)、X射线衍射(XRD)、X射线光电子能谱(XPS)等对阳极氧化膜的微结构进行表征,采用电化学测试方法对阳极氧化膜的耐腐蚀性能进行评价。结果表明,Al-Mn合金镀层在草酸溶液中形成的阳极氧化膜主要由稳态的α-Al2O3和亚稳态的γ-Al2O3所组成,并含有少量的MnO2及Al(MnO4)3,该阳极氧化膜具有很强的绝缘特性,其腐蚀电流密度较Al-Mn合金镀层下降了约3个数量级,较基体镁合金下降了约6个数量级,极大地提高了镁合金的耐腐蚀性。     

惰性阳极基体材料NiFe2O4尖晶石的研制

本文用Ni2O3和Fe2O3为原料制备了铝电解用惰性阳极基体材料NiFe2O4尖晶石,详细介绍了整个制备过程。通过对NiFe2O4尖晶石的含量、真密度以及开口孔隙率等重要指标进行研究比较,最终得出了制备NiFe2O4尖晶石最佳工艺条件,并用最佳工艺条件重新制取试样进行热腐蚀实验。     

Effect of NiO content on corrosion behaviour of Ni-xNiO-NiFe2O4 cermets in Na3AlF6-Al2O3 melts

5Ni-xNiO-NiFe2O4 cermets with different NiO contents were prepared and the corrosion behaviour in Na3AlF6-Al2O3 melts was investigated in laboratory electrolysis tests. The results indicate that adding NiO is unfavorable to the densifieation of NiFe2O4-xNiO ceramics, while small Ni doping can greatly improve the sintering property. The electrolysis tests show that excess NiO is beneficial to the reduction of Fe while has little effects on that of Ni in the bath; the steady-state concentrations of Ni, Fe are below the corresponding solubilities of NiFe2O4-xNiO, implying that corrosion mechanism changes while electrifying. Post-electrolysis examination of anodes shows that Ni metal leaches at the anode surface, yet the substrate ceramic prevents the penetration of bath and the further loss of metal phase.     

THERMAL STRESSES RELAXATION DESIGN OF Ni/NiFe2O4 SYSTEM FUNCTIONALLY GRADED CERMET INERT ANODE

The thermal stresses relaxation of Ni/NiFe2O4 system functionally graded cermet inert anode for aluminum electrolysis was optimally designed. The transient thermal stresses of the inert anode under complex boundary condition during high-temp （955℃） electrolysis were calculated using the finite-element software ANSYS, the influence of different parameters on the distribution of the thermal stresses were analyzed. The results showed that, during the process of thermal shock, the thermal hoop tensile stress on the surface of the anode is very large, which is possibly the major cause of anode crack; when the radius of the anode is between 0.05-0.15m, a range that can be realized by recent manufacturing technology, the optimum composition distribution exponent p is 0.25; The hoop tensile stresses reduce with the decrease of anode scale and also decrease with the decrease of the convection coefficient between the electrolyte and the anode.     

磷酸盐连接NiFe2O4基金属陶瓷的界面形貌和连接机理

针对铝电解用金属陶瓷惰性阳极材料与金属导杆的电连接困难问题,以Al(H2PO4)3为胶粘剂,CuO为固化剂,NiFe2O4陶瓷粉和Cu-Ag合金粉为填充料,连接NiFe2O4基金属陶瓷.通过分析Al(H2PO4)3与CuO的反应过程,观察磷酸盐连接NiFe2O4基金属陶瓷的界面形貌,探索其高温连接机理.结果表明:Al(H2PO4)3与CuO反应后生成的Cu-P-O化合物是主要连接物相;Cu-P-O化合物随温度的变化逐步发生一系列物相变化,并在960~1 000℃下逐步分解为CuO和P2O5;在不同热处理温度下,磷酸盐与NiFe2O4基金属陶瓷连接界面始终保持紧密结合状态:低温下连接层与金属陶瓷润湿性良好并依靠吸附作用相互连接,高温下连接层与金属陶瓷依靠互扩散作用相互连接.     

ZnFe2O4基材料在NaF-AlF3-Al2O3熔盐中的腐蚀

采用锌铁尖晶石材料作为铝电解惰性阳极,考察了这种阳极在ＮａＦ－ＡｌＦ３－Ａｌ２Ｏ３熔盐中的腐蚀行为,阳极电视密度为０￣２．５Ａ／ｃｍ＾２。实验结果表明,锌铁尖晶石材料在阳极极化条件下的ＮａＦ－ＡｌＦ３－Ａｌ２Ｏ３熔盐中具有很好的耐腐蚀性能。在低电流密度下,阳极材料的腐蚀速度随电流密度的增大而增大,最高的腐蚀速度出现于０．５￣０．７５Ａ／ｃｍ＾２。此事,腐蚀速度随电流密度的增大而降低。实验证明,高阳     

Preliminary testing of NiFe2O4-NiO-Ni cermet as inert anode in Na3AlF6-AlF3 melts

1 Introduction It is well known that the current aluminum reduction cell with carbon consumable anode has many disadvantages. So the concept of inert anode was introduced, with which the disadvantages can be avoided completely. A lot of research work has…     

Effect of adding methods of metallic phase on microstructure and thermal shock resistance of Ni/（90NiFe2O4-10NiO） cermets

Ball mixing and electroless plating were respectively used as the adding methods of metallic phase to prepare Ni/（90NiFe2O4-10NiO） cermets for the inert anode in aluminum electrolysis. The microstructure and thermal shock resistance of cermet samples were studied. The results show that, for the samples prepared by ball mixing method, aggregation of metallic phase is found in either the green blocks or sintered samples and the extent of aggregation increases with the increase of metal content. For 6.5Ni/（90NiFe2O4-10NiO） cermets prepared with electroless plating method, the homogeneous and fine metallic particles are found in either the green compacts or sintered samples, but the relative density and thermal shock residual strength decrease by 3% and 28%-58% respectively, compared with samples prepared with ball mixing method.     

Cu-Ni-Al金属阳极抗氧化耐腐蚀性能研究

本文对铝电解阳极材料Cu—Ni—Al合金进行抗氧化耐腐蚀性能测试，结果说明Cu—Ni—Al阳极在空气和氧气中具有良好的抗氧化性，其中温度和气氛对该合金材料抗氧化影响很大；在不同条件下，电解质组成为NaCl-CaF2-Al2O3的熔盐中溶解损失比较小。在熔盐中腐蚀速率随着温度升高、电解质分子比降低而增大。     

Results from 100 h electrolysis testing of NiFe2O4 based cermet as inert anode in aluminum reduction

1 Introduction Since the Hall-Héroult process was applied in aluminum production, an inert anode was always the target that the aluminum industry was seeking for in the new technology field[1]. Some selection criteria have been defined in order to ident…     

Yb_2O_3掺杂对15(20Ni-Cu)/(NiFe_2O_4-10NiO)金属陶瓷性能的影响

采用冷压-烧结技术制备NiFe2O4-10NiO基金属陶瓷材料;通过对烧结体的显微结构和物相组成、电导率、电解试样的表层形貌、电解质和阴极铝的杂质增量等的分析检测,研究Yb2O3掺杂对15(20Ni-Cu)/NiFe2O4-10NiO金属陶瓷致密度、导电率和耐腐蚀性能的影响。结果表明:1 300℃烧结的0.5%Yb2O3-15(20Ni-Cu)/(NiFe2O4-10NiO)金属陶瓷具有较好的性能,相对密度为98.53%,960℃时的电导率为53.06 S/cm,电解腐蚀后金属腐蚀层厚度为20~30μm,总杂质增量为0.079 g。     

废感光胶片制备超细银粉的研究

采用Lu2O3/TiO2/Nb2O5作为ZrO2热障涂层材料的稳定剂,研究Lu2O3/TiO2/Nb2O5共稳定ZRO2(15％ LTNSZ)热障涂层材料在900℃、40 mol％V2O5+60 mol％Na2SO4熔盐中的热腐蚀行为.结果表明:8％YSZ热障涂层材料热腐蚀2h后,t相ZrO2全部相变为m相ZrO2,热腐蚀产物为尺寸较大的YVO4晶体;15％ LTNSZ热障涂层材料热腐蚀20 h后,m相ZrO2的比例仅为5.5％,热腐蚀产物为尺寸较小的LuVO4晶体.与Y2O3稳定剂相比,Lu2O3/TiO2/Nb2O5稳定剂使ZrO2在40 mol％ V2O5+60 mol％ Na2SO4熔盐中的抗热腐蚀性能提高1个量级以上.