镁镍储氢合金,magnesium nickel hydrogen storage alloys
1)magnesium nickel hydrogen storage alloys镁镍储氢合金
1.The effect of doping Ti on synthesis ofmagnesium nickel hydrogen storage alloys by hydriding combustion synthesis;掺钛对氢化燃烧合成镁镍储氢合金的影响
2.The effects of lanthanum metals doping on the synthesis ofmagnesium nickel hydrogen storage alloys synthesized by hydriding combustion were investigated through XRD, TG-DSC and SEM.借助于XRD,TG-DSC等技术研究了掺杂镧系金属对氢化燃烧合成镁镍储氢合金合成条件及合金性能的影响。
英文短句/例句
1.Study of Hydriding Combustion Synthesis Mg-Ni Hydrogen Storage Alloy and Doping for Improving Its Performance;镁镍储氢合金的氢化燃烧制备技术及掺杂改性研究
2.Recent Progress on the Mg_2Ni-based Hydrogen Storage AlloyMg_2Ni型镁基储氢合金研究新进展
3.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
4.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
5.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
6.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
7.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
8.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
9.Hydrogen storage performance of recycled Re-Ni-Co alloy from slag从废渣中提取的稀土镍钴合金储氢性能的研究
10.Study on Magnesium-based Metal and Molecular Sieve Nanocomposite Hydrogen Storage Materials;镁基金属与分子筛复合纳米储氢材料的研究
11.Preparation Assisted by an External High Magnetic Field and Hydriding/Dehydriding Kinetic Mechanism of Mg-based Storage Hydrogen Alloys磁场辅助合成镁基储氢合金及其吸放氢动力学机理
12.The Effects of Carbon Nanotubes on the Hydrogen Storage Performance of the Alloy Electrode for Ni-MH Batteries;储氢合金电极中添加碳纳米管对镍氢电池性能的影响
13.Research on Surface Modification of Hydrogen-storage Alloy Negative Electrodes and Performance of Ni/MH Batteries with Large Capacities;储氢合金负极表面改性及大容量镍氢电池性能研究
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.A Study on Modification of Mg-based Alloys and Hydrogenation/Dehydrogenation Properties of the Organic Liquid Catalyzed by Mg-based Alloys;镁基储氢合金的改性及其催化有机液体吸放氢性能研究
16.Electroless Ni-P/Ni-Cu-P Coatings on AZ91D Magnesium;AZ91D镁合金化学镀镍磷/镍铜磷
17.Electroless Deposition of Ni-P, Ni-W-P Coatings with a Chromium-free Pretreatment on AZ91D Magnesium Alloy;AZ91D镁合金无铬前处理化学镀镍磷、镍钨磷合金
18.Study on Zn-Ni Immersion Plating on Magnesium Alloy before Nickel Electroless Plating镁合金化学镀镍前浸镀锌-镍合金的研究
相关短句/例句
Mg-based hydrogen storage alloy镁基储氢合金
1.Smooth,adhesive,uniform and metallic lusterMg-based hydrogen storage alloy films were electrodeposited from aqueous solution with optimal complexing agent and addition agent at constant current density.采用恒电流沉积法,选用适宜的添加剂和络合剂,成功地从水溶液中沉积出有金属光泽、致密、附着力好的镁基储氢合金膜,探讨了温度及镀液成分对合金储氢性能的影响。
3)magnesium based hydrogen storage alloy镁基储氢合金
1.Preparation and property ofmagnesium based hydrogen storage alloy hydride Mg_2NiH_4;镁基储氢合金氢化物Mg_2NiH_4的制备及性能研究
4)magnesium based hydrogen storage alloys镁基储氢合金
1.Hydriding combustion synthesis(HCS) has been widely recognized as an innovative processing to producemagnesium based hydrogen storage alloys in recent years.氢化燃烧合成法(HCS法)是镁基储氢合金制备的新方法,具有省能、省时、产物高活性等显著优点,近年来引起了国内外广泛关注。
5)RE-Mg alloys稀土-镁储氢合金
6)Mg-based hydrogen storage alloys镁基储氢合金
1.Three kinds of methods to improve the characteristics ofMg-based hydrogen storage alloys are introduced.介绍了镁基储氢合金的性能改善方法。
2.After a series of study, it was proved that theMg-based hydrogen storage alloys which were synthesized by induction melting have perfect activation properties and alloys hydrogen absorption properties were improved after diffuse annealing.采用感应熔炼法制备出两种镁基储氢合金,即Mg2Ni和Mg2Ni0。
延伸阅读
银金镁镍合金分子式:CAS号:性质:银基含金、镁和镍的四元合金。未经内氧化处理的AgAuMgNi2-0.3~0.2合金的密度10.6g/cm3。熔点963℃。抗拉强度400MPa。电阻系数2.8x102Ω·mm2/m。线膨胀系数3.4X108/℃。经内氧化后,抗拉强度为680MPa。电阻系数3.0X102Ω·mm2/m。采用熔炼和压力加工法制造;内氧化提高性能。可作微型开关、继电器的弹性接点及大型开关分流接点。