储氢合金,hydrogen storage alloy
1)hydrogen storage alloy储氢合金
1.Study on properties ofhydrogen storage alloy recycled by a new method;新法回收废储氢合金性能的研究
2.Factors affecting co-precipitation in preparation of CeNi_5hydrogen storage alloys;储氢合金CeNi_5制备中共沉淀的影响因素研究
3.Structure and electrochemical properties of La_(0.8-x)RE_xMg_(0.2)Ni_(3.2)Co_(0.6)hydrogen storage alloys;La_(0.8-x)RE_xMg_(0.2)Ni_(3.2)Co_(0.6)储氢合金的结构及电化学性能
英文短句/例句
1.An Investigation on the Hydrogen Storage Alloys Used for Metal Hydride Hydrogen Compression;用于金属氢化物化学氢压缩的储氢合金的研究
2.An Investigation on the Ti-V-Mn/Ti-Cr-V Hydrogen Storage Alloys and Hybrid Hydrogen Storage Vessel;Ti-V-Mn/Ti-Cr-V储氢合金及混合储氢容器的研究
3.Characteristic of hydrogen sorption of alloy La_2Mg_(16)NiLa_2Mg_(16)Ni储氢合金吸放氢性能研究(英文)
4.A Study on the Microstructures and Hydrogen Storage Characteristics of Ti-Cr-V Based Hydrogen Storage Alloys;Ti-Cr-V系储氢合金的微结构及储氢特性研究
5.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
6.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
7.Study on Hydrogen Absorption/Desorption Characteristics of Ti-V-based Solid Solution Type Hydrogen Storage Alloys;Ti-V基固溶体型储氢合金吸放氢性能的研究
8.Study on Absorb-hydrogen Principle of Hydrogen Storage Alloys and Functions of Substitute Element in Hydrogen Storage Alloys;储氢合金吸氢机理及掺杂元素作用机制的研究
9.A Study on the Hydrogen Storage Properties of Re-Mg Alloys Modified by Mechanical Grinding in Tetrahydrofuran (THF);稀土—镁储氢合金的四氢呋喃球磨改性研究
10.A Study on the Hydrogen Absorption Properties of Slurry Systems Composed of Hydrogen Storage Alloys and Benzene;储氢合金与苯组成的浆液的吸氢特性研究
11.Design of Hydrogen Storage Alloy Testing System & Ni-MH Battery Management System;储氢合金测试系统及镍氢电池管理系统的设计
12.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
13.Study on Superlattice La-Mg-Ni Type Hydrogen Storage Alloys;超晶格La-Mg-Ni系储氢合金的研究
14.Study on the Preparation and Properties of AB_3-Type La-Mg-based Hydrogen Storage Alloys;AB_3型La-Mg基储氢合金制备与性能研究
15.Synthesis and Properties of Mg_2Ni Based Hydrogen Storage Alloys;Mg_2Ni系储氢合金的制备及性能研究
16.Study on Hydrogen Storage Alloys PCT System and Its Experimental Analysis;储氢合金PCT性能测试系统和实验分析
17.Research on Properties of AB_5-Type Hydrogen Storage Alloys by Addition of a Little Ti少量Ti对AB_5型储氢合金性能的影响
18.The Optimum Preparation Conditions of LaMgNi_4 Hydrogen Storage AlloyLaMgNi_4储氢合金的制备及工艺优化
相关短句/例句
hydrogen storage alloys储氢合金
1.Modification of LaNiAlhydrogen storage alloys;LaNi_(4.25)Al_(0.75)储氢合金的改性
2.Research trend in electrochemical properties of rare-earth-basedhydrogen storage alloys;稀土系储氢合金电化学性能的研究现状
3.Electrochemical properties of as-cast Mm(NiCoMnAlB)_(5+χ)hydrogen storage alloys;铸态Mm(NiCoMnAlB)_(5+χ)储氢合金的电化学性能
3)Hydrogen-storage alloy储氢合金
1.The hydrogen-storage alloys of Nickel/Metal hydride batteries for electric vehicle were used as the experimental materials.选用镍氢动力电池负极材料储氢合金为研究对象,观察在常温、低温条件下循环后储氢合金电极表面各元素分布、粒度变化,并提出电解液电导率变化及隔膜失效也是镍氢电池早期失效的一个重要原因。
2.As an important material of Ni-H battery s cathode, hydrogen-storage alloy has a very important value in use.储氢合金作为镍氢电池的重要负极材料 ,具有极重要的实用价值 ,为实现其工艺视景仿真系统中实体模型的快速开发和重用 ,利用 3DMAX中的基本三维物体造型设计及开放式三维图形软件OpenGL的光照、材质和纹理映射 ,提出了储氢合金工艺视景仿真系统中实体模型库的设计思想和设计步骤 ,成功开发出可实际使用的实体模型库 ,实现了模型对象的可复用性。
3.Based on the reviews of literatures, firstly, we summarized the development, classification of hydrogen-storage alloy, their hydrogen-storage principle and application; secondly, we synthesized Ti-Li alloy .本论文在调研了国内外大量相关文献的基础上,首先对储氢合金的发展,分类,储氢原理和应用进行了概述,其次将钛作为研究对象,首次采用扩散锂的方法形成钛锂合金,对其储氢性能进行优化,测量了纯钛与钛锂合金的放氢P-t曲线,对它们的储氢性能进行了比较:最后利用X射线衍射(XRD)、扫描电子显微镜(SEM)、二次离子质谱分析(SIMS)分别对样品的相结构、表观形貌及相对含量进行了分析。
4)LaNiAl hydrogen storage alloyLaNiAl储氢合金
1.LaNiAl hydrogen storage alloys were prepared by arc melting method.采用电弧熔炼铸造LaNiAl储氢合金,研究了退火处理、退火合金表面镀铜和包覆二氧化硅对合金性能的影响。
5)ZrMn_2 hydrogen storage alloyZrMn_2储氢合金
6)TiMn based hydrogen storage alloysTiMn储氢合金
延伸阅读
储氢合金分子式:CAS号:性质:金属氢化物/镍蓄电池的负极材料。能够吸收氢,与氢生成金属氢化物(如LaNi5Hx)主要有以LaNi5,MmNi5(Mm表示混合稀土)为主的稀土系合金和以TiNi,Ti2Ni,Ti1-xZrxNi等为主的钛系合金。