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http://dx.doi.org/10.9714/psac.2017.19.2.019

Cryogenic milling for the fabrication of high Jc MgB2 bulk superconductors  

Kim, D.N. (Korea University of Technology and Education)
Kang, M.O. (Korea University of Technology and Education)
Jun, B.H. (Korea Atomic Energy Research Institute)
Kim, C.J. (Korea Atomic Energy Research Institute)
Park, H.W. (Korea University of Technology and Education)
Publication Information
Progress in Superconductivity and Cryogenics / v.19, no.2, 2017 , pp. 19-24 More about this Journal
Abstract
Cryogenic milling which is a combined process of low-temperature treatment and mechanical milling was applied to fabricate high critical current density $(J_c)MgB_2$ bulk superconductors. Liquid nitrogen was used as a coolant, and no solvent or lubricant was used. Spherical Mg ($6-12{\mu}m$, 99.9 % purity) and plate-like B powder (${\sim}1{\mu}m$, 97 % purity) were milled simultaneously for various time periods (0, 2, 4, 6 h) at a rotating speed of 500 rpm using $ZrO_2$ balls. The (Mg+2B) powders milled were pressed into pellets and heat-treated at $700^{\circ}C$ for 1 h in flowing argon. The use of cryomilled powders as raw materials promoted the formation reaction of superconducting $MgB_2$, reduced the grain size of $MgB_2$, and suppressed the formation of impurity MgO. The superconducting critical temperature ($T_c$) of $MgB_2$ was not influenced as the milling time (t) increased up to 6 h. Meanwhile, the critical current density ($J_c$) of $MgB_2$ increased significantly when t increased to 4 h. When t increased further to 6 h, however, $J_c$ decreased. The $J_c$ enhancement of $MgB_2$ by cryogenic milling is attributed to the formation of the fine grain $MgB_2$ and a suppression of the MgO formation.
Keywords
$MgB_2$; Cryogenic milling; Milling time; Critical current density; Grain refinement;
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