本文确定了多层膜超导材料的取向关系。
Theorientation relationship of the multilayer film superconductor has been determined.
本发明公开了一种制作超导材料的方法。
The present invention discloses a method for manufacturing a superconductive material.
高温超导材料的研究目前有了很大的进展。
At present the study of high Tc superconductive materials has been made progress rapidly.
本发明公开了一种室温超导材料制造方法。
This invention relates to a method for making room-temp. super-conducting material.
超导材料的应用给电工技术带来了质的飞跃。
With the application of the superconductor, electrical technique has been brought about significant innovation.
超导材料测试仪主要用于测试超导材料的失超电流。
The instrument is used for measurement of critical current of superconductor.
介绍了高温超导材料RT曲线用微机的测试方法。
The measuring method of R T curves of High Tc sample by computer is described.
这对低温与超导、超导材料及其应用技术有重要意义。
It is significance for the cryogenics, superconductor, superconducting materials and its application.
综述了爆炸焊接新技术在超导材料焊接中的一些应用。
Some applications are described in a new process of explosive welding for the superconducting materials.
本发明的超导线包括基底和原子有序超导材料的连续层。
The superconductive line of the invention comprises a substrate and continuous layers of atomic ordered superconductive material.
这是一些细小的超导材料,由一个刻有间隔的氧化铝晶片上的铌薄膜构成。
These are tiny pieces of a superconducting material consisting of a niobium film on an aluminium oxide wafer with gaps etched into it.
简略介绍以玻璃与陶瓷为基体的高温超导材料的各种制取工艺。
This paper briefly introduces various prepared technology of high-temperature superconductor on glass and ceramics.
对超导材料失超特性研究是超导电力科学技术中的重要基础课题。
Researching on the quench characteristics of superconducting tape is an important base for applying superconducting(equipments) in power system.
用途:用做超导材料、快中子反应堆结构材料和特种合金添加剂。
Uses:Used as deoxidizer and alloying agents for smelting steel and used as pregnantagents and additives in cast irons.
结果表明,高温超导材料属于具有部分离子性和部分共价性的晶体。
It shows that the high Tc superconductors are the crystals with both ionic and covalent properties.
本文对液氮温区的大块体超导材料的约瑟夫逊效应进行了实验研究。
Experimental studies were made in Josephson effect of bulk superconductive materials at liquid nitrogen temperature.
超导材料技术是21世纪具有战略意义的高新技术,极具发展潜力和市场前景。
Superconducting materials and technologies are strategically high-tech in the 21st century, and have highly potential and market prospects.
人们在研究中发现高温超导材料对许多气体的氧化还原反应有很强的催化能力。
In study people discover that some high Tc superconductive materials exhibit high catalytic activity for gases oxidation or reduction.
具有多种功能特征:如择形催化作用、热稳定性、用做锂电池材料和超导材料等。
Layered compounds have many functional characteristics, such as shape selecting catalysis, heat stability, and can be used in lithium batteries, superconducting materials and etc.
介绍了高温超导材料研究与开发动向,重点科研课题及高温超导材料的实用化前景。
This paper introduced tendency for research and development, important research subjects and future pragmatization of high-Tc superconductor materials.
杂质对铜氧化物高温超导材料物理性质的影响的研究是高温超导机理研究的热点之一。
The study of the effects of nonmagnetic impurities in copper oxide materials is one of the hotspot issues to understand the mechanism of the high Tc materials.
它具有高度的(100)轴取向,可广泛地用于催化剂、光学材料 和超导材料等领域。
The material has high (100) axial orientation, which can be widely applied in catalysts, optical materials, superconducting materials and other fields.
扩展功能包括了23基本常数,对金属系列活动,公制前缀和超导材料的历史概况说明清单。
Extended features include a list of 23 fundamental constants, illustration of the activity series of metals, metric system prefixes and a historical summary of superconducting materials.
更准确地说,研究团队是发现了许多有序的小区域,但没有较大的区域,这说明这块材料还不是超导材料。
More precisely, the team found many small regions of order but no larger ones, which meant that the material was not superconducting.
1987年成功发现新超导材料,同年出任全球规模最大的美国休斯敦大学德州超导中心首位主任。
In 1987, he successfully discovered new superconductive materials and was appointed Executive Director of the world's largest Texas Centre for Superconductivity at University of Houston. Prof.
本文介绍了到目前为止已经实用化的几种超导材料及其优缺点,简述了超导材料在电工领域的应用现状。
This paper introduces some practical superconductors and its advantages and disadvantages; the application status of the superconductor in electrical engineering is presented.
高纯度金属镓是生产化合物半导体材料的基础材料,同时它还可以用于生产超导材料、合金材料、永磁材料等。
High purity gallium metal is the basic ingredient for semiconductor compound material, and it is also highly utilized in the manufacture of super conductor material, alloy, alnico etc.
现在,运用这一技术已成功制备出过饱和固溶体、非晶、金属间化合物、纳米晶材料和超导材料、磁性材料等。
Up to now, the technology has been used to prepare supersaturated solid solution, amorphous alloys, intermetallic compound, nanocrystalline, magnetism materials, superconductor materials, and etc.
高温超导材料的发现,引起了众多科学家的关注并进行研究,使得高温超导体的临界温度提高到液氮温度以上。
The finding of high temperature superconductor (HTS) made a lot of scientists research and study it, then critical temperature of HTS was on the increase.
高温超导材料的发现,引起了众多科学家的关注并进行研究,使得高温超导体的临界温度提高到液氮温度以上。
The finding of high temperature superconductor (HTS) made a lot of scientists research and study it, then critical temperature of HTS was on the increase.
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