hydrogen storage material
英 [ˈhaɪdrədʒən ˈstɔːrɪdʒ məˈtɪəriəl]
美 [ˈhaɪdrədʒən ˈstɔːrɪdʒ məˈtɪriəl]
n. 储氢材料
双语例句
- The performance of ball-milled La_2Mg_ ( 17)/ M composite hydrogen storage material
球磨La2Mg(17)/M复合贮氢材料的性能 - Recent progress in hydrogen storage material has been reviewed in this paper.
本文综述了储氢材料的种类及其最新研究进展。 - Investigation on the Phase Structure and Electrochemical Performances of Ball-milled La_2Mg_ ( 17) Composite Hydrogen Storage Material
球磨La2Mg(17)复合储氢材料结构及电化学性能研究 - Mg base hydrogen storage material prepared by ball-milling and reactive ball-milling and its properties
球磨和催化反应球磨制备的镁基复合贮氢材料及其性能 - Design of properties measuring apparatus and application for hydrogen storage material
储氢材料性能测试装置设计及应用 - The studying history of Mg-based hydrogen storage material of recent years was reviewed simply, and reasonable classification was made: Mg-based alloy material system and Mg-based composite material system;
对近几十年来镁基储氢材料的研究历史做了简单的回顾,并对镁基储氢材料进行了合理的分类,将其分为镁基合金材料体系和镁基复合材料体系; - In this paper, the principle of absorbing/ desorbing hydrogen and researching progress of some kinds of light metal-aluminum hydrides as hydrogen storage material are introduced.
介绍了几种轻质金属-铝氢化物贮氢材料的吸放氢机理和研究进展。 - The properties and manufacturing methods of carbon nanotubes are briefly introduced, and the prospect of its potential application in several respects for automobiles are analyzed, including hydrogen storage material, supercapacitor, electrode material of lithium ion batteries, et al.
本文简单地介绍了碳纳米管的性能和制备方法,分析了碳纳米管在汽车中潜在的若干方面的应用前景,包括储氢材料、超级电容器、锂离子电池电极材料等。 - 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。 - In this paper synthesizing methods of V-based solid solution type hydrogen storage material is introduced.
介绍和评述了钒基固溶体型贮氢材料的制备方法; - The Researching Development of Light Metal-Aluminum Hydrides as Hydrogen Storage Material
轻质金属-铝氢化物贮氢材料的研究进展 - This paper discusses applying some functions of hydrogen storage material for improving ordnance now available and introducing high technologies and new materials into developing new ordnance.
论述了用高技术贮氢材料的某些功能来改造现有的兵器,以及在研制新型兵器中,引入高技术新材料。 - The hydrogen storage is the key of utilizing hydrogen energy. It is possible that carbon nanotube becomes the best hydrogen storage material because of its high specific surface and other special properties.
氢能储存是氢能利用的关键,碳纳米管具有高的比表面积及一些普通材料所不具有的特异效应和性能,因此有望成为最佳的储氢材料。 - Research Progress of AMH_4-type Complex Metal Hydrides ( NaAlH_4) as a Hydrogen Storage Material
AMH4型金属络合物贮氢材料(NaAlH4)的研究进展 - Hydrogen storage material is a new type of material.
储氢材料是一类新的功能材料。 - According to analysis of the main content ( thermodynamics and dynamics) of the hydrogen storage properties for hydrogen storage material, an apparatus for measuring hydrogen storage properties was designed and assembled.
通过对储氢材料储氢过程特点的分析,自行设计安装了一套测量储氢材料储氢性能的装置。 - So these two kinds of compounds are considered the most promising hydrogen storage material.
因此,这两种化合物更适合作为储氢材料。 - Hydrogen storage material takes an important part in the field of high technology.
储氢材料在高技术领域中占有日益重要的位置。 - Magnesium-based hydrogen storage material, when heated at certain temperature, will release active hydrogen that could react with thiophene, which is called hydrodesulfurization.
镁基储氢材料在一定温度下加热放出的活性氢可以与噻吩发生加氢脱硫反应。 - Bergman-type Ti-Zr-Ni quasicrystals can absorb hydrogen rapidly in a large quantity, and have been regarded as a highly promising hydrogen storage material, which are unveiling their potential applications in fields of hydrogen energy or deuterium-tritium nuclear fusion energy.
Bergman型结构的Ti-Zr-Ni准晶具有储氢量高且吸氢快的优点,是一种极具潜力的储氢材料,有望在氢能或氘氚核聚变能领域得到广泛应用。 - Therefore the reaction time should be determined in reference to the dehydrogenation velocity of the hydrogen storage material.
因此反应时间当参照储氢材料在不同温度下的放氢速率来确定。 - In this paper, the structure and their function in improving magnesium based hydrogen storage material of five kinds of carbon materials, the carbonized anthracite, deposited carbon, graphite, needle coke and active carbon, were studied.
本文对比分析了碳化无烟煤、沉积炭、石墨、针状焦、活性炭五种碳材料的结构特点及对镁球磨制备储氢材料的改善效果。 - At present, extensive research in the hydrogen storage material such as carbon-based nano material, metal hydride, MOFs structures and organic hydrogen storage material.
目前广泛研究中的储氢材料有:碳基纳米材料、金属氢化物、MOFs结构储氢材料和有机小分子储氢材料。 - Carbon-based materials have certain potential at adsorption of hydrogen and become a new hot spot of physical hydrogen storage material because it has many micropore, large specific surface area, high surface tension and high adsorption potential.
碳基材料具有多微孔、比表面积大、表面张力大、吸附势能大等特点,在吸附储氢方面存在一定的潜力,成为物理储氢材料研究的新热点。 - Palladium is an important hydrogen storage material.
金属Pd是重要的储氢材料。 - Hydrogen storage material is the new type functional material developed along with hydrogen energy utilization in recent thirty years.
储氢材料是伴随着氢能利用在最近三十多年才发展起来的新型功能材料。