AIP Advances (Jan 2014)

Microstructural and crystallographic imperfections of MgB2 superconducting wire and their correlation with the critical current density

  • Mohammed Shahabuddin,
  • Nasser S. Alzayed,
  • Sangjun Oh,
  • Seyong Choi,
  • Minoru Maeda,
  • Satoshi Hata,
  • Yusuke Shimada,
  • Md Shahriar Al Hossain,
  • Jung Ho Kim

DOI
https://doi.org/10.1063/1.4862670
Journal volume & issue
Vol. 4, no. 1
pp. 017113 – 017113-11

Abstract

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A comprehensive study of the effects of structural imperfections in MgB2 superconducting wire has been conducted. As the sintering temperature becomes lower, the structural imperfections of the MgB2 material are increased, as reflected by detailed X-ray refinement and the normal state resistivity. The crystalline imperfections, caused by lattice disorder, directly affect the impurity scattering between the π and σ bands of MgB2, resulting in a larger upper critical field. In addition, low sintering temperature keeps the grain size small, which leads to a strong enhancement of pinning, and thereby, enhanced critical current density. Owing to both the impurity scattering and the grain boundary pinning, the critical current density, irreversibility field, and upper critical field are enhanced. Residual voids or porosities obviously remain in the MgB2, however, even at low sintering temperature, and thus block current transport paths.