Effects of Heating Rate in Calcination Process on Microstructures of Y123 Precursor and Final Films Formed by Advanced TFA-MOD Method

Authors :: Yoshitaka Tokunaga
Yasuji Yamada
Akimasa Yajima
Ryo Teranishi
Y. Aoki
K. Nakaoka
Y. Shiohara
S. Koyama
Hiroshi Fuji
Junko Matsuda
Toru Izumi
Source :: IEEE Transactions on Appiled Superconductivity. 15:2652-2655
Publication Year :: 2005
Publisher :: Institute of Electrical and Electronics Engineers (IEEE), 2005.
Abstract: We have investigated the effects of heating rates in the calcination process on microstructures of Y123 precursor and final films. As a result, it was found that there is CuO segregation in the vicinity of the Y123 precursor film surface, when the precursor is prepared at a rapid heating rate in the calcination. In the case of heat-treating this precursor film in the crystallization process, many large pores and misoriented Y123 crystals tend to remain in the Y123 final film. It is important to control the heating rate in the calcination, in order to attain higher J/sub C/ of the Y123 final films.

Subjects :: Materials science
High-temperature superconductivity
Superconducting thin films
Condensed Matter Physics
Microstructure
Electronic, Optical and Magnetic Materials
law.invention
Chemical engineering
law
Transmission electron microscopy
Scientific method
Mod
Calcination
Electrical and Electronic Engineering
Crystallization

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