Structure characteristics of melt-processed YBCO

Abstract: SEM, TEM, SAM and X-ray diffraction analyses have suggested that the bulk YBCO samples sintered with the co-precipitation powders are almost free of second phrases. However, a layer with non-123-stoichiometric compositions is always present near the grain boundaries, which forms the dominant zone of the weak links in these samples. The improved critical current density with reducing field dependence can be obtained by the melt-process. It has produced a multiphase microstructure with highly aligned plate-like … Show more

“…A variety of solidification techniques have been reported but they can be classified into essentially two types: slow cooling without a temperature gradient [6] and slow cooling in a defined temperature gradient with/without sample transport [7]. The aim behind the current work was to investigate the potential for combining the benefits from using microwave sintering (uniform and full oxygen content and density) with those arising from using melt processing (control of microstructure and higher critical current density).…”

Microwave melt texturing of bulk YBCO superconductors

“…A variety of solidification techniques have been reported but they can be classified into essentially two types: slow cooling without a temperature gradient [6] and slow cooling in a defined temperature gradient with/without sample transport [7]. The aim behind the current work was to investigate the potential for combining the benefits from using microwave sintering (uniform and full oxygen content and density) with those arising from using melt processing (control of microstructure and higher critical current density).…”

Microwave melt texturing of bulk YBCO superconductors

On crystal alignment in polycrystalline YBCO materials based on TEM observation

Fabrication of melt-texture growth YBCO samples using a simple muffle furnace