国内Bi系高温超导材料制备工艺研究进展
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摘要
超导材料因具有超强导电能力、完全抗磁性和约瑟夫森效应,在电力、磁场、超算等领域展现出巨大的潜力。Bi系高温超导材料的临界使用温度高于液氮的沸点(77 K),能够制成带材和线材,且可承载的电流大,被认为是一种非常具有前景的实用化超导材料。本文主要介绍了Bi系高温超导材料的结构和主要的制备工艺,从制备前驱粉末的三种主要工艺方面,介绍了国内开展的相关研究,简要分析了这三种制备工艺的优缺点。
Superconducting materials exhibit great potential in the fields of electricity, magnetic fields, and supercomputers due to their superior electrical conductivity, complete diamagnetism and Josephson effect. Bi-based high-temperature superconducting materials can achieve a critical use temperature higher than the liquid nitrogen boiling point of 77 K, can be made into strips and wires, and can carry a large current, is considered to be a very promising practical superconducting material. This paper mainly introduces the structure and main preparation process of Bi-based high-temperature superconducting materials. From the three main processes of preparing precursor powders, the related researches carried out in China are introduced, and the advantages and disadvantages of these preparation processes are briefly analyzed.
Superconducting materials exhibit great potential in the fields of electricity, magnetic fields, and supercomputers due to their superior electrical conductivity, complete diamagnetism and Josephson effect. Bi-based high-temperature superconducting materials can achieve a critical use temperature higher than the liquid nitrogen boiling point of 77 K, can be made into strips and wires, and can carry a large current, is considered to be a very promising practical superconducting material. This paper mainly introduces the structure and main preparation process of Bi-based high-temperature superconducting materials. From the three main processes of preparing precursor powders, the related researches carried out in China are introduced, and the advantages and disadvantages of these preparation processes are briefly analyzed.
引文
1 罗会仟.自然杂志,2017,36(6),427.
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3 冯开明.核电开发,2009,2(3),212.
4 邓自刚,李海涛.中国材料进展,2017,36(5),329.
5 吴力军.Bi系和Y系高温超导材料的形成机理、结构与缺陷的研究.博士学位论文,湖南大学,2012.
6 戴超.Bi-2212高温超导线性能及铠装导体性能研究.博士学位论文,中国科学技术大学,2018.
7 白利锋.实用高温超导材料及其在电机中的应用.博士学位论文,西北工业大学,2017.
8 李成山.银及银合金包套Bi-2223高温超导带材的制备和性能.博士学位论文,东北大学,2004.
9 张影.Bi系超导材料的Sol-gel法制备、机制及掺杂研究.博士学位论文,东北大学,2010.
10 路晓明.Bi-2212薄膜的Pechini溶胶-凝胶法制备和优化、微结构及其超导性能的研究.博士学位论文,东北大学,2014.
11 吴会燕.高温超导体结构和超导电性以及掺杂锰氧化物Sr1-x-CexMnO3磁电性质的研究.博士学位论文,中国科学技术大学,2009.
2 温华明,严陆光,林良真.低温与超导,2005,33(1),46.
3 冯开明.核电开发,2009,2(3),212.
4 邓自刚,李海涛.中国材料进展,2017,36(5),329.
5 吴力军.Bi系和Y系高温超导材料的形成机理、结构与缺陷的研究.博士学位论文,湖南大学,2012.
6 戴超.Bi-2212高温超导线性能及铠装导体性能研究.博士学位论文,中国科学技术大学,2018.
7 白利锋.实用高温超导材料及其在电机中的应用.博士学位论文,西北工业大学,2017.
8 李成山.银及银合金包套Bi-2223高温超导带材的制备和性能.博士学位论文,东北大学,2004.
9 张影.Bi系超导材料的Sol-gel法制备、机制及掺杂研究.博士学位论文,东北大学,2010.
10 路晓明.Bi-2212薄膜的Pechini溶胶-凝胶法制备和优化、微结构及其超导性能的研究.博士学位论文,东北大学,2014.
11 吴会燕.高温超导体结构和超导电性以及掺杂锰氧化物Sr1-x-CexMnO3磁电性质的研究.博士学位论文,中国科学技术大学,2009.
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