hydrogen storage materials
英 [ˈhaɪdrədʒən ˈstɔːrɪdʒ məˈtɪərɪəlz]
美 [ˈhaɪdrədʒən ˈstɔːrɪdʒ məˈtɪriəlz]
网络 贮氢材料; 储氢材料
双语例句
- Investigation on Performances of the Novel Metal-ammine-complexes-based Hydrogen Storage Materials; Synthesis, Characterizations and Properties of Rare-earth Metal Microporous Materials
新型金属氨基络合物基储氢材料的性能研究 - Theoretical Studies of the Hydrogen Storage Behaviors of Alloys and Design of the New Hydrogen Storage Materials
合金储氢机理与新型储氢材料设计的理论研究 - First-principles study on the influence of component element substitution on the dehydrogenation ability of LiNH_2 hydrogen storage materials
元素替代对LiNH2储氢材料释氢能力影响的第一性原理研究 - Research Progress of Complex Hydrogen Storage Materials with Al – H Bond
含Al–H键络合物储氢材料研究进展 - Research Progress in Fabricating Ultrafine-grained Hydrogen Storage Materials by Severe Plastic Deformation
大塑性变形制备超细晶储氢材料的研究进展 - Mechanical Alloying ( MA) is a new and better technology used to synthesize Mg-based hydrogen storage materials.
机械合金化法是新近发展起来的制备镁系储氢材料的较佳工艺。 - The first-principles study on the elasticity of V-based solid solution hydrogen storage materials
钒基固溶体储氢材料弹性性质第一性原理研究 - Study on Controlling Preparation of Carbon/ Megnesium Hydrogen Storage Materials and Dehydrogenation Kinetics
碳镁储氢材料控制性制备及放氢动力学的研究 - Metal-Organic Frameworks ( MOFs) as Hydrogen Storage Materials
金属有机骨架化合物(MOFs)作为储氢材料的研究进展 - Nanotechnology can remarkably modify the hydrogen storage properties of hydrogen storage materials.
将纳米技术与贮氢材料结合起来,可显著的改变材料的贮氢性能。 - Effect of Magnesium Based Hydrogen Storage Materials on the Properties of Composite Solid Propellant
镁基储氢材料对AP/Al/HTPB复合固体推进剂性能的影响 - The safety and reliability of the storage and use of hydrogen storage materials are special subjects in the field of safety engineering and reliability.
储氢材料贮存使用的安全可靠性是安全工程和可靠性领域中的特殊问题,纳米储氢材料的使用,其安全性和贮存可靠性同时占有重要地位。 - Hydrogen storage materials and metal hydride-Ni batteries
储氢材料与金属氢化物-镍电池 - Also sum up the manufacturing methods of magnesium based hydrogen storage materials, containing melting method, diffusing method, mechanical alloy method, composing by hydrogen burning method and so on.
总结了目前制备镁基储氢材料所用的主要方法,例如熔炼法、扩散法、机械合金化法、氢化燃烧合成法等。 - The present paper has summarized not only, much of the latest information, but also the experience of the author in the study of hydrogen storage materials over many years.
本文不仅概括了许多最新资料,而且总结了作者多年来从事贮氢材料研究的经验和体会。 - Progress in Hydrogen Storage Materials and Gas Absorption Heat Pumps and Air-conditions
氢化物储氢材料及其热泵和空调的研究进展 - Novel results and important progress were introduced to exhibit the great roles of the above methods utilized in simulating lithium ion battery and hydrogen storage materials. The wide use of material simulation and design is prospected for the future material innovation in the field of energy storage.
介绍了应用这些方法在锂离子电池材料和储氢材料等储能材料研究中取得的成果和最新的进展,展望了计算材料学和材料设计学在该领域中的应用前景。 - Recent development and preparation of hydrogen storage materials had been introduced. They included the normal hydrogen storage materials, amorphous hydrogen material, film hydrogen storage material and then discussed the surface treatment of the material.
介绍了中国贮氢材料研究的新进展,贮氢材料的研制主要集中在常规贮氢材料,非晶态贮氢材料,薄膜贮氢材料及贮氢材料的表面处理等方面。 - Recent Development of Hydrogen Storage Materials and Nickel/ Metal Hydride Batteries in China
中国贮氢材料和镍氢电池新进展 - Hydrogen storage materials, which are important carriers during hydrogen storage and transport, can absorb and desorb hydrogen reversibly.
储氢材料能可逆地大量吸放氢,在氢的储存与输送过程中是一种重要载体。 - Influence of Nanostructure and Ion Beam Technology on Characterization of Hydrogen Storage Materials
纳米结构及离子束改性对储氢材料性能的影响 - It can be stored in high-pressure-resistant gas tank and solid state hydrogen storage materials;
储氢方式和储氢材料有高压气瓶储氢、固体储氢材料(主要是金属和复合氢化物材料、纳米结构材料); - Magnesium based hydrogen storage materials.
添加金属催化剂能明显改善镁基储氢材料的储氢性能。 - Electrochemistry hydrogen storage materials with higher electrochemical hydrogen storage capacity and longer cycle life are expected to be found.
人们期待更高电化学储氢容量与更好的循环寿命的电化学储氢材料的出现。 - The development and key problem of hydrogen storage materials, especially for Mg-based hydrogen storage alloys, were reviewed firstly.
本文首先综述了储氢材料,特别是Mg基储氢合金的研究进展和存在的问题。 - Rare-earth elements have received a great deal attention due to wide application in luminescent materials, laser materials, permanent-magnet materials, magnetic refrigeration materials, magnetostrictive materials, hydrogen storage materials, high temperature superconductor and other high technology fields.
稀土元素广泛地应用于发光材料、激光材料、永磁材料、磁致冷材料、磁致伸缩材料、储氢材料、高温超导材料等高技术领域,已经引起了广泛的重视。 - Thus, it is one of the important elements composing the newtype solid hydrogen storage materials.
因此,它还是构成新型固态储氢材料的重要元素之一。 - After years of research and development, a variety of new-type hydrogen storage materials have been successfully developed.
经过多年的研究与发展,多种新型的储氢材料体系已经问世。 - Since carbon nanofibers ( CNFs) and carbon nanotubes ( CNTs) have specific structures and unique properties, they can widely be used as matrix composites, catalyst supports, hydrogen storage materials, sensors, fuel cells, capacitors and other fields.
碳纳米纤维和碳纳米管具有独特的结构和优越的性能,使得它们在复合材料、催化剂载体、储氢材料、传感器、燃料电池和电容器等方面都有应用前景。