镁基贮氢合金,Mg-based hydrogen storage alloy
1)Mg-based hydrogen storage alloy镁基贮氢合金
1.The study ofMg-based hydrogen storage alloys by ball milling;球磨镁基贮氢合金的研究
2.The progress in preparation ofMg-based hydrogen storage alloys is reported.综述了镁基贮氢合金制备方法的研究进展,对熔炼法、机械合金化法、扩散法、氢化燃烧法、表面处理等几种主要制备镁基贮氢合金的方法的制备过程、影响因素、特点、优缺点等作了阐述,并论述了目前国内外采用不同制备方法所制得的部分镁基贮氢合金的充放氢性能和电化学性能。
3.Mg-based hydrogen storage alloy, which is a new type of hydrogen storage material, attracts researchers" attention in the world because its discharge capacity is extremely high.贮氢材料的发展是氢能利用的关键技术 ,作为新型贮氢材料 -镁基贮氢合金 ,由于其具有超高理论电化学容量的优势而受到全世界瞩目。
英文短句/例句
1.Investigation on the Properties of La-Mg Based Hydrogen Storage Alloys and the Electronic Structures of Mg-Based Hydrogen Storage Alloys;La-Mg基贮氢合金性能及镁基贮氢合金电子结构的研究
2.Phase Structure and Electrochemical Properties of New-Type Ml-Mg-Based Hydrogen Storage Alloys;新型稀土—镁基贮氢合金的相结构与电化学性能
3.Modification of Rare-metal-based Alloys and Electrodeposition of Mg-Ni Alloys for Hydrogen Storage;稀土基贮氢合金的改性研究及电沉积镁—镍贮氢合金的初步探索
4.Phase Structure and Electrochemical Properties of Re-Mg Based Composite Hydrogen Storage Alloys;稀土—镁基复合贮氢合金的相结构和电化学性能
5.The Structure and Hydrogen Storage Properties of New Hydrogen Storage Alloys Containing Magnesium;新型含镁贮氢合金的结构和贮氢性能研究
6.Research on the Cycle Stability of Magnisium-Based Hydrogen Storage Electrode Alloys by Multi-Components Alloying;多元合金化改善镁基贮氢电极合金循环稳定性研究
7.The Effect of Mg and Stoichiometric Ratio on Electrochemical Characteristics of Ml-Mg-Ni-Based Hydrogen Storage Alloys;镁和计量比对Ml-Mg-Ni基贮氢合金电化学性能的影响
8.Investigation on the Electronic Structures and Hydrogen Storage Properties of Mg-based Hydrogen Storage Alloys;Mg基贮氢合金电子结构及贮氢性能的研究
9.Study on the Synthetic Technology, Properties and Mechanism of the Magnesium-Nickel Based Hydrogen Storage Materials;镁—镍基贮氢材料的合成工艺及性能、机理研究
10.Effect of Ball-milling with Ni Powder and Nano Carbon on the Electrochemical Properties of Amorphous Mg Based Alloys;添加Ni粉球磨以及纳米碳复合对非晶态镁基贮氢电极合金电化学性能的影响
11.Experiment Investigation on Mg-based Hydrogen Storage Alloys;Mg基贮氢合金的掺杂和复合实验研究
12.Study on the Intermediate Reactions in the Process of Hydriding Combustion Synthesis of Magnesium Based Hydrogen Storage Alloys;镁基储氢合金氢化燃烧合成若干中间反应研究
13.Development of Hydriding Combustion Synthesis Reaction Apparatus and the Preparation of Mg-Based Hydrogen Storage Alloy-Mg_2NiH_4;氢化燃烧合成设备研制及镁基储氢合金Mg_2NiH_4制备
14.Investigation on Chemical Preparation and Electrochemical Properties of RE-Mg-Ni Hydrogen Storage Electrode Alloys;稀土—镁—镍系贮氢合金的化学法制备及性能的研究
15.Recent Progress on the Mg_2Ni-based Hydrogen Storage AlloyMg_2Ni型镁基储氢合金研究新进展
16.Investigations on the Thermodynamics and Kinetics of Mg-based Hydrogen Storage Materials镁基储氢合金吸放氢热力学和动力学研究
17.An Investigation on the Structural and Electrochemical Properties of the TiV-Based Hydrogen Storage Electrode Alloys;钛钒基贮氢电极合金结构和电化学性能研究
18.A Study on the Novel V-Ti-Ni-Zr Based Dual-phase Hydrogen Storage Electrode Alloys;新型V-Ti-Ni-Zr基双相贮氢电极合金研究
相关短句/例句
Mg-based hydrogen storage alloys镁基贮氢合金
1.In this thesis, previous research work onMg-based hydrogen storage alloys have been comprehensively reviewed.本文在对国内外镁基贮氢合金材料的研究进展进行了文献综述的基础上,着重对以下两个方面的内容进行了研究:1)选取La_2Mg_(16)Ni三元合金进行了贮氢性能测试,并以此合金成分为基础,研究了机械球磨改性对合金相结构、表面形貌及贮氢性能的影响,同时用Y与Co分别对合金组分中的La和Ni进行部分替代,研究替代产物的相结构与贮氢性能;2)分别以La_2Mg_(16)Ni和Mg_2Ni两种典型镁基贮氢合金为基础,研究四氢呋喃球磨改性对合金相结构、表面形貌、组成与吸放氢动力学性能的影响。
3)Ln-Mg-based hydrogen storage alloys稀土-镁基贮氢合金
4)rare earth Mg-based hydrogen storage alloys稀土镁基贮氢合金
1.Therare earth Mg-based hydrogen storage alloys were synthesized by rapidly quenching method.采用快淬法制备稀土镁基贮氢合金。
2.The La-Mg-Ni systemrare earth Mg-based hydrogen storage alloys were synthesized by rapidly quenching method,and the cover reagent was added up during the smelting process.在熔炼过程加入覆盖剂,采用快淬法制备La—Mg—Ni系稀土镁基贮氢合金,并研究了制备工艺、镁含量对合金电化学性能的影响。
5)V-based hydrogen storage alloy钒基贮氢合金
1.V-based hydrogen storage alloys V3TiNi0.以V2O5、TiO2等原料,用自蔓延高温合成法制备了钒基贮氢合金V3TiNi0。
6)V based hydrogen storage alloysV基贮氢合金
1.Research progress inV based hydrogen storage alloys in recent years is introduced.介绍了近几年V基贮氢合金的研究进展。
延伸阅读
稀土-镁系贮氢材料分子式:CAS号:性质:RE2Mg15Ni2,REMg11,M(RE:La或Ce。M:其他合金元素),由稀土、镁、镍和其他合金元素制备而成,其吸氢能力比LaNi5±X高2~3倍,价格低,有望成为电动汽车的电源。