Open AccessEffect of CO2 on the processing of Y–Ba–Cu–O superconductors
Author(s) -
Guna S Selvaduray,
C. Zhang,
U. Balachandràn,
Yufei Gao,
K. L. Merkle,
Hao Shi,
R.B. Poeppel
Publication year - 1992
Publication title -
journal of materials research/pratt's guide to venture capital sources
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.788
H-Index - 148
eISSN - 0884-2914
pISSN - 0884-1616
DOI - 10.1557/jmr.1992.0283
Subject(s) - grain boundary , materials science , sintering , superconductivity , high resolution transmission electron microscopy , tetragonal crystal system , condensed matter physics , phase (matter) , grain boundary strengthening , microstructure , crystallography , analytical chemistry (journal) , mineralogy , metallurgy , crystal structure , nanotechnology , transmission electron microscopy , physics , chemistry , chromatography , quantum mechanics
The superconducting properties of YBa2Cu3O6+x reacted with various known ratios of O2/CO2 gas mixtures during sintering at different temperatures were studied. Jc was found to decrease drastically upon reaction with CO2, becoming zero at certain CO2 activities. The stability region for the 123 superconductor, as a function of CO2 activity and temperature, was empirically formulated as follows: log pCO2 \u3c (−45,000)/T + 33.4. The grain boundaries in sintered samples with Jc = 0 were investigated with HRTEM in conjunction with EDS. Two distinct types of grain boundaries were observed. Approximately 10% of the grain boundaries were wet by a thin layer of a second phase, deduced to be BaCuO2. The remaining boundaries were sharp grain boundaries. The grain structure near the sharp grain boundaries was tetragonal. These two types of grain boundaries are thought to be responsible for Jc being zero
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