阳极基底,anode substrate
1)anode substrate阳极基底
1.Asymmetricanode substrate and rapid-raise temperature were the main factors ofanode substrate warp and crack under molding pressure 25-250 MPa.其中阳极基底、YSZ电解质薄膜和LSM阴极分别采用干压成型方法、浆料喷覆工艺和浆料涂覆法制备。
2.LSGM+NiOanode substrates for intermediate temperature solid oxide fuel cells were fabricated and the relationships between porosity pore radii distribution, electrical conductivity of the substrate and its composition were studied.2O3-δ(LSGM)的基础上,研制出中温固体氧化物燃料电池LSGM+NiO阳极基底;考察了阳极基底孔隙率、孔径分布及电导率随组成变化的规律;研究了阳极基底组成、微观结构、制备工艺等对负载型LSGM电解质薄膜成膜过程及质量的影响和负载型电解质薄膜在还原气氛中的结构稳定性;采用湿化学物理方法及等静压烧结工艺成功地制备出了厚度为20~50μm的负载型致密LSGM电解质薄膜。
3.Preparation ofanode substrate membranes, as the mechanical supports of SOFC PEN sandwich structure, is the most pivotal technique.平板式阳极支撑型固体氧化物燃料电池 (SOFC)是现在SOFC研究领域的一个重要方向,作为 SOFC三明治结构力学支架的阳极基底膜的制备是实现该设计思路的最为关键的技术。
英文短句/例句
1.Study on Sintered Temperature of Anode Substrates of Solid Oxide Fuel Cell固体氧化物燃料电池阳极基底预烧温度的研究
2.Study on the Amount of Pore-former in Anode Substrates of Solid Oxide Fuel Cell固体氧化物燃料电池阳极基底造孔剂含量的研究
3.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
4.Synthesis of CuO Nanostructure on the Basis of Anodic Aluminum Oxide Template by Hydrothermal Method以阳极氧化铝模板为基底水热法合成纳米氧化铜
5.aluminium base alloy sacrificial anode铝基合金防蚀消耗阳极
6.Selective Synthesis of FeS and FeS_2 Nanosheet Films on Iron Substrate for Double-photoelectrode Dye-sensitized Solar Cells;铁基底上选择性合成FeS和FeS_2纳米片薄膜及其在双光电极太阳能电池中的应用
7.The Research of Photocathode CsI on MCP Substrate;以MCP为基底的CsI光电阴极的研究
8.positive terminal of an electric battery;anode(电池的)正极,阳极.
9.Sacrificial Anode Performance of Iron-base Materials and Application to Cathodic Protection of 12Cr Steel Tubes铁基牺牲阳极性能及其对12Cr钢管的阴极保护
10.Performance and Anode Bacterial Community Analysis in Different Substrates Powered Microbial Fuel Cell;不同底物的微生物燃料电池阳极菌群及其产电特性分析
11.Effect of Anodized Aluminum Oxide Underlayer on the Magnetic Properties and Structure of Smtbco Magnetic Films阳极氧化铝底层对SmTbCo薄膜磁性能与结构影响的研究
12.The anode in an electron tube.阳极电子管中的阳极
13.Study on Ti/MO_2 Anode with Intermediate Layers of Graphite Fiber;石墨纤维中间层钛基氧化物阳极研究
14.The Preparation and Study on the Performances of Aluminum Based Alloy Sacrificial Anodes;铝基合金牺牲阳极的制备及性能研究
15.Application Test on Lead Anodes in Zinc of Electrolytic Deposition Production;铅基阳极在锌电积中的应用试验研究
16.Micro Anodic Stripping Voltametric Analyzer Based on Secondary Development Platform基于二次开发平台的阳极溶出伏安仪
17.Research progress in Pt-based catalysts for anode of DMFCDMFC阳极用Pt基催化剂的研究进展
18.Electrochemical behavior of tin,manganese,and ruthenium oxide anodes based on titanium钛基锡锰钌氧化物阳极的电化学性能
相关短句/例句
anode substrates阳极基底
1.Different amount of pore-former was added into theanode substrates.采用固相反应法制备阳极支撑型固体氧化物燃料电池的阳极基底,在阳极基底中加入不同含量的造孔剂。
2.In order to avoid the cell deformation,the sintered temperatures ofanode substrates were changed,shrinking rate ofanode substrates matched with that of electrolyte,the optimal sintered temperature of anode was got.采用固相反应法制备阳极支撑型固体氧化物燃料电池的阳极基底。
3)anode-supported composite anode substrate阳极支撑复合阳极基底
4)bottom anode electrode炉底阳极
1.The design idea and applications of four types of refractory forbottom anode electrodes including conducting bottom electrodes,thin-pole bottom electrodes,steel-sheet bottom electrodes and water-cooling billet bottom electrodes are introduced.介绍了直流电弧炉目前流行的导电炉底型、多支接触钢钎型、钢片散热型和水冷钢棒型4种类型的炉底阳极用耐火材料的设计理念和应用情况,并着重剖析了水冷钢棒型炉底阳极用耐火材料的组成结构、理化性能和应用特点,同时还介绍了宝钢150 t超高功率直流电弧炉水冷钢棒型炉底阳极耐火材料的使用状况,指出存在的缺陷并提出改进的方向:改善炉底阳极套筒砖的高温强度和热震稳定性将是提高炉底阳极套筒砖寿命的关键,改善镁钙质干式炉底捣打料的高温收缩和高温耐蚀性将是提高炉底捣打料寿命的关键。
5)Al base sacrificial anodes铝基阳极
6)Cu-ceria anodeCeO2基阳极
延伸阅读
银阳极泥提银(见铜阳极泥提金银)银阳极泥提银(见铜阳极泥提金银)extraction of silver from silver anode slimey In yongJ,nl tlyln银阳极泥提银(extraetion of Silve:fr()nl 511一ver anode slime)见铜阳极泥提金银