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Fluxoid Pinning by Vanadium Carbide Precipitates in Superconducting Vanadium.

机译：超导钒中碳化钒沉淀物的磁通固定。

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The purpose of this investigation is to study fluxoid pinning in a Type II superconductor. Vanadium was chosen as the superconductor to study because it is obtainable in high purity and its microstructure can be readily controlled. The pinning centers are formed by introducing carbon into the vanadium matrix forming vanadium carbide precipitates. The vanadium carbide precipitates are disc-shaped particles whose thickness is only a few atomic layers. The precipitates are likely to be superconducting when H = 0 by reason of the proximity effect. The vanadium carbide precipitates on the (310) habit planes. According to studies with the transmission electron microscope, the particles are uniformly distributed throughout the specimen. The particle size and number density is changed by aging the specimens for fixed amount of time at 350 C. The present results are based on the study of thirty specimens. A 99.95% pure annealed vanadium specimen was used as a control. The other vanadium specimens contain 0.1 atomic percent to 0.6 atomic percent carbon. As a result of metallurgical analysis, the mean diameters of the particles range from less than 100 A to 2613 A and the number density of the pinning centers range from 3.3 x 10 to the 15 power particles/cc to 4.2 x 10 to the 17th power particles/cc. The measurement of the superconducting properties lead to values of the macroscopic pinning force density ranging from 33400 dynes/cc to 3170000 dynes/cc for T - O K.

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作者
Marker, A. J.;
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年度 1977
页码 1-133
总页数 133
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Vanadium; Superconductors; Precipitates; Vanadium compounds; Carbides; Particles; Particle size; Superconductivity; Magnetic fields; Fluxoid pinning; Vanadium carbide; Transmission election microscopy;

机译：钒;超导体;沉淀物;钒化合物;碳化物;颗粒;粒径;超导性;磁场;类固醇钉扎;碳化钒;透射选择显微镜;

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1. The transition from interphase-precipitated carbides to fibrous carbides in a vanadium-containing medium-carbon steel [J] . Meng-Yang Chen, Hung-Wei Yen, Jer-Ren Yang Scripta materialia . 2013,第11期

机译：含钒的中碳钢从相间沉淀碳化物到碳化纤维的过渡
2. Dynamical behavior of fluxoid and arrangement of pinning center in superconductor based on TDGL equation [J] . Miyamoto S, Hikihara T Physica, C. Superconductivity and its applications . 2004,第1a2期

机译：基于TDGL方程的超导体磁通动力学行为和钉扎中心的布置。
3. Alloyed White Cast Iron with Precipitates of Spheroidal Vanadium Carbides VC [J] . M. Kawalec, M. Górny Archives of Foundry Engineering . 2012,第4期

机译：球形碳化钒VC沉淀的合金化白色铸铁
4. Comparison of hydrogen behavior trapped at precipitated and undissolved vanadium carbide in vanadium-bearing high strength steels [C] . K. HOKAZONO, M. KAWAMORI, Y. MATSUMOTO International Conference Recent Trends in Structural Materials . 2019

机译：在含钒的高强度钢中捕获沉淀和未溶解的钒碳化碳化物的氢的比较
5. FLUXOID QUANTIZATION IN SUPERCONDUCTING VANADIUM. [D] . SPENCE, STUART THOMAS. 1967

机译：超导钒中的助焊剂定量。
6. Vanadium spin qubits as telecom quantum emitters in silicon carbide [O] . Gary Wolfowicz, Christopher P. Anderson, Berk Diler, 2020

机译：钒自旋量子比特用作碳化硅中的电信量子发射器
7. Studies of low temperature phase transformations in high field superconductors and the phonon spectrum and mechanical properties of vanadium. Final report [O] . B.W. Batterman 1972

机译：高场超导体中低温相变的研究及钒的声光谱和力学性能。总结报告

Fluxoid Pinning by Vanadium Carbide Precipitates in Superconducting Vanadium.

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