Relationships Between Dislocations, Second Phases, and Pinning in Y-Ba-Cu-O

E.P. KVAM; V. PAVATE; C. VARANASI; P.J. MC GINN

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Relationships Between Dislocations, Second Phases, and Pinning in Y-Ba-Cu-O

机译：Y-Ba-Cu-O中位错，第二相和钉扎之间的关系

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The pinning effects and the critical current density predicted to occur in bulk YBa_2Cu_3O_7 from second phase particles and from dislocations are examined. It is shown that core or strain pinning by dislocations provides the best explanation of pinning forces, and that strain pinning by dislocations or particle pinning of individual (but not multiple) flux lines best fit the pinning energy. An experiment in which critical current is increased when particles are coarsened by long molten holding times during melt processing is correlated with increased dislocation density, despite a drop in volume fraction and increase in size of the added normal state particles. The combined aspects of these suggest that strain induced pinning from dislocations may be the dominant mechanism in high critical current bulk materials.

机译：检查了第二相粒子和位错在大块YBa_2Cu_3O_7中预期发生的钉扎效应和临界电流密度。结果表明，由位错钉扎的芯或应变提供了钉扎力的最佳解释，而单个（但不是多条）通量线通过位错或颗粒钉扎的应变钉扎最适合钉扎能量。尽管体积分数降低且所添加的正常状态颗粒尺寸增大，但在熔融加工过程中由于长时间的熔融保持时间而使颗粒变粗时，临界电流增加的实验与位错密度的增加相关。这些方面的综合方面表明，由位错引起的应变诱发钉扎可能是高临界电流散装材料中的主要机理。

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来源
《Journal of Electronic Materials》 |1995年第12期|p.1955-1959|共5页
作者
E.P. KVAM; V. PAVATE; C. VARANASI; P.J. MC GINN;
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作者单位

School of Materials Engineering, Purdue University, W. Lafayette, IN 47907-1289;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类材料;
关键词
dislocations; flux pinning; melt processing; particle pinning;

机译：位错;助熔剂;熔体加工;颗粒固着;
入库时间 2022-08-18 00:25:18

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Relationships Between Dislocations, Second Phases, and Pinning in Y-Ba-Cu-O

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