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Influence of Ag nano-powder additions on the superconducting properties of Mg $B_2$ materials  

K. J. Song (Korea Electrotechnology Research Institute)
Park, S. J. (Korea Electrotechnology Research Institute)
Kim, S. W. (Korea Electrotechnology Research Institute)
Park, C. (Korea Electrotechnology Research Institute)
J. H. Joo (Korea Electrotechnology Research Institute)
Kim, H. J. (Korea Electrotechnology Research Institute)
J. K. Chung (Korea Electrotechnology Research Institute)
R. K. Ko (Korea Electrotechnology Research Institute)
H. S. Ha (Korea Electrotechnology Research Institute)
Publication Information
Progress in Superconductivity and Cryogenics / v.5, no.3, 2003 , pp. 6-10 More about this Journal
Abstract
Silver nano-powder was added to Ma $B_2$ to make (Ag)$_{(x)wt.%}$(Mg $B_2$)$_{(l00-x)wt.%}$ (A $g_{x}$-Mg $B_2$) (10 $\leq$ x $\leq$ 50) composite superconductors to investigate the effect of the Ag nano-powder on the vortex pinning. Pellets made out of the mixed powder were put inside stainless steel tubes, which were sintered at 85$0^{\circ}C$ in Ar atmosphere. No impurity phase was identified for as-rolled samples. However, both the Mg $B_2$ and the A $g_{x}$-Mg $B_2$ composite pellets, when sintered, contain small amount of Mg $B_4$ and MgAg impurity phases. From the magnetization study, it was found that the flux pinning was improved in the high magnetic field region (> 3 T) only when 10w/o Ag was added to Mg $B_2$. The "two step" structures in ZFC M(T) curve gradually increased as the amount of Ag added increased. Pinning centers can be created by adding a suitable amount of Ag nano-powder which is not too large to increase the decoupling between the Mg $B_2$ grains.crease the decoupling between the Mg $B_2$ grains.
Keywords
Mg $B_2$ powder; Ag nano-powder; sintering or as-rolled; critical currents; vortex pinning; magnetization;
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