Abstract
In this work, either SiC or separate Si and C (Si+C) powders of up to 10 weight percentage were in situ reacted with Mg and B (molar ratio of 1:2) and the superconducting properties compared. The latter shows a smaller a-axis lattice cell parameter as compared to the same level of SiC additions, indicating a higher level of C substitution. In those samples, a larger increase in the C-axis is also noticeable and a more severe degradation in the superconducting transition temperature is observed. However, reaction with SiC causes a greater broadening in the transition width. At both 5Kand 20 K, for samples reacted with SiC (up to 5 wt.%) a stronger improvement in the magnitude of critical current density, Jc, is obtained. On the other hand, samples reacted with (Si+C) show a weaker dependence on field at 5 K because of higher C substitution. At 20 K, the decreases more rapidly with field for the same level of SiC additions. Hence, for high temperature (20 K) and lowfield (<5 T) applications, reaction with SiC is preferred for obtaining higher Jc (H). © 2010 IEEE.
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Chen, S. K., Tan, K. Y., Tan, K. B., Shaari, A. H., Kursumovic, A., & MacManus-Driscoll, J. L. (2011). Optimizing C incorporation into magnesium diboride. IEEE Transactions on Applied Superconductivity, 21(3 PART 3), 2627–2630. https://doi.org/10.1109/TASC.2010.2089420
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