Abstract

The object of this investigation is to improve the flux pinning and critical current density (J c ) of bulk MgB 2 materials for daily applications including superconducting permanent magnets. We prepared two sets of bulk MgB 2 materials employing commercial high-purity powders of Mg metal and carbon-coated amorphous B using a single-step solid-state reaction process. The first set of samples was produced by a single-step solid-state reaction at various temperatures between 794 °C and 806 °C in steps of 3 °C in pure argon atmosphere to optimize the sintering temperature. Further, the second set of samples was produced from Mg-rich MgB 2 material adding 1.5 wt% carbon-coated amorphous B powder to it, combined with 4 wt% of silver. X-ray diffraction analysis showed that samples were single-phase MgB 2 with minor trace of impurities. In all samples, sharp superconducting transition temperatures were observed around 38 K, which was decreased around 1 K in MgB 2 material produced with 1.5 wt% of carbon encapsulated boron. The critical current densities in Mg-rich MgB 2 material with 4 wt% of Ag were lower than in silver-free MgB 2 bulks. The sample with 1.5 wt% of carbon-coated B exhibited the highest J c of 460 kA/cm 2 at 20 K and self-field. Our results demonstrate a strong correlation between the microstructure achieved and the resulting pinning performance.

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