Competition of the nano-inclusions and the effects on critical current density in Ni and SiC co-doped MgB2 bulks Online publication date: Wed, 16-Nov-2016
by Qi Cai; Yongchang Liu; Qianying Guo; Zongqing Ma
International Journal of Nanotechnology (IJNT), Vol. 13, No. 10/11/12, 2016
Abstract: Samples of (MgB2)0.96Ni0.04 + x wt% SiC (with x = 0, 2, 5 and 10) were sintered at 750°C for 30 min, and the phase composition, microstructures, and superconducting properties were investigated. The highest critical current density (Jc) was obtained in the sample with 2 wt% SiC doping, owing to the precipitation of the nanoscale MgNi2.5B2 and Mg2Si on the edge of regular grains. The generation of the two impurities displayed a competition, and consequently the MgNi2.5B2 is refined to be effective pinning centre, which is in contrast to its influence in the Ni-doped sample. Results from differential thermal analysis and modified Flynn-Wall-Ozawa method also supported our explanation, and the best fitting mechanism function of solid-solid reaction in this system was ascertained. We conclude that 'Avrami-Erofeev, n = 2' is the best fitting mechanism function, indicating random nucleation followed by an instantaneous growth of nuclei. The function of the described mechanism, G(α), is 2[−ln(1 − α)]1/2, (α is the product fraction), which is different from that of pure MgB2.
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