Abstract

In order to study the influence of calcium substitution on the thermal stability and phase composition of the YBa 2Cu 4O 8 (Y-124) superconductor, precursor powders with composition Y : Ca : Ba : Cu = 1 − x : x : 2 : 4 ( x = 0.0–0.1) are prepared using an acetate–tartrate based sol–gel method. The phase composition of the products formed after different stages of heat treatment at 800°C and under 1 atm oxygen pressure is examined by X-ray powder diffraction (XRD) and thermogravimetric analysis (TGA). We found that in the first stage of the heat treatment, among stable mixed oxides and carbonate, mainly Y 2Ba 4Cu 7O y (Y-247) and CuO are formed. Upon further heating Y-247 can react with CuO to form Y-124, but can also decompose into Y-124 and YBa 2Cu 3O 7 − y (Y-123). The formation of Y-123 is favoured by an increasing amount of calcium substitution. We also demonstrate that the TGA technique makes it possible to detect and distinguish between the presence of the Y-123, Y-124 and Y-247 when they are simultaneously present in a sample, while this is less obvious using only XRD.

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