Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB2 bulks

Qi Cai; Zongqing Ma; Yongchang Liu; Qianying Guo; Jie Xiong; Huijun Li; Fengming Qin

doi:10.1007/s10854-016-4989-0

Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB₂ bulks

Qi Cai, Zongqing Ma, Yongchang Liu^*, Qianying Guo, Jie Xiong, Huijun Li, Fengming Qin

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摘要

Bulk MgB₂ samples with or without glycine doping were sintered at 800 °C followed by furnace cooling and quenching, respectively. The strain analysis and the microstructure observation revealed that the un-doped and glycine-doped MgB₂ showed contrary response to the used quenching treatment, in terms of the crystallinity, the lattice parameters, and the superconducting properties. Accordingly, the critical current density of the quenched MgB₂ is enhanced with respect to the furnace-cooled one, due to the pinning dislocations and the well-connected MgB₂ net induced by the reserved strain. As for the glycine-doped samples, the impurity particles, which served as effective pinning centers in the furnace-cooled sample, segregated at the grain boundary under the driving force of the residual strain, and are destructive to the critical current density of the quenched one.

源语言	英语
页（从-至）	9431-9436
页数	6
期刊	Journal of Materials Science: Materials in Electronics
卷	27
期	9
DOI	https://doi.org/10.1007/s10854-016-4989-0
出版状态	已出版 - 1 9月 2016
已对外发布	是

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title = "Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB2 bulks",

abstract = "Bulk MgB2 samples with or without glycine doping were sintered at 800 °C followed by furnace cooling and quenching, respectively. The strain analysis and the microstructure observation revealed that the un-doped and glycine-doped MgB2 showed contrary response to the used quenching treatment, in terms of the crystallinity, the lattice parameters, and the superconducting properties. Accordingly, the critical current density of the quenched MgB2 is enhanced with respect to the furnace-cooled one, due to the pinning dislocations and the well-connected MgB2 net induced by the reserved strain. As for the glycine-doped samples, the impurity particles, which served as effective pinning centers in the furnace-cooled sample, segregated at the grain boundary under the driving force of the residual strain, and are destructive to the critical current density of the quenched one.",

author = "Qi Cai and Zongqing Ma and Yongchang Liu and Qianying Guo and Jie Xiong and Huijun Li and Fengming Qin",

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T1 - Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB2 bulks

AU - Cai, Qi

AU - Ma, Zongqing

AU - Liu, Yongchang

AU - Guo, Qianying

AU - Xiong, Jie

AU - Li, Huijun

AU - Qin, Fengming

PY - 2016/9/1

Y1 - 2016/9/1

N2 - Bulk MgB2 samples with or without glycine doping were sintered at 800 °C followed by furnace cooling and quenching, respectively. The strain analysis and the microstructure observation revealed that the un-doped and glycine-doped MgB2 showed contrary response to the used quenching treatment, in terms of the crystallinity, the lattice parameters, and the superconducting properties. Accordingly, the critical current density of the quenched MgB2 is enhanced with respect to the furnace-cooled one, due to the pinning dislocations and the well-connected MgB2 net induced by the reserved strain. As for the glycine-doped samples, the impurity particles, which served as effective pinning centers in the furnace-cooled sample, segregated at the grain boundary under the driving force of the residual strain, and are destructive to the critical current density of the quenched one.

AB - Bulk MgB2 samples with or without glycine doping were sintered at 800 °C followed by furnace cooling and quenching, respectively. The strain analysis and the microstructure observation revealed that the un-doped and glycine-doped MgB2 showed contrary response to the used quenching treatment, in terms of the crystallinity, the lattice parameters, and the superconducting properties. Accordingly, the critical current density of the quenched MgB2 is enhanced with respect to the furnace-cooled one, due to the pinning dislocations and the well-connected MgB2 net induced by the reserved strain. As for the glycine-doped samples, the impurity particles, which served as effective pinning centers in the furnace-cooled sample, segregated at the grain boundary under the driving force of the residual strain, and are destructive to the critical current density of the quenched one.

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Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB2 bulks

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Evaluation of quenching-induced lattice strain and superconducting properties in un-doped and glycine-doped MgB₂ bulks