What Are Superconducting Ceramics

The superconductor we will be experimenting with is an yttrium y barium ba and copper cu composition.

What are superconducting ceramics.

Ybco is a superconducting ceramic. Superconductivity is a set of physical properties observed in certain materials where electrical resistance vanishes and magnetic flux fields are expelled from the material. Superconductivity is the complete disappearance of electric resistance in materials that are cooled to extremely low temperatures. Magnesium diboride mgb2 is known to be an important high temperature superconductor material.

Furthermore the superconducting properties t c and j c b dependencies were studied in the ybco samples and the results are shown in fig. Conductive ceramics conductive ceramics superconductors. Any material exhibiting these properties is a superconductor unlike an ordinary metallic conductor whose resistance decreases gradually as its temperature is lowered even down to near absolute zero a superconductor has a. Ceramic superconductors can be prepared using an oxalate precursor 3 4 which can be transformed to the superconducting oxide by sintering and annealing.

The majority of high temperature superconductors are ceramic materials. Superconducting ceramics having relatively high critical temperatures are composed of rare earth metals alkaline earth metals and copper. The temperature at which resistance ceases is referred to as the transition temperature or critical temperature tc. Ceramic superconductors the ceramic materials used to make superconductors are a class of materials called perovskites.

High energy ball milling with subsequent low temperature sintering remains an attractive solid state. This transformation takes place through the carbonate which is very stable and decomposes at temperatures above 900 c. The discovery of high temperature above the temperature of liquid nitrogen ceramic superconductors has changed superconductivity from an interesting curiosity to a useable technology with particular applications in the medical field as a superconducting magnet in mri scanners. They have few defects and a limited polycrystalline interfacial area.

They are then called low temperature superconductors. That is it loses all resistance to electric current at extremely low temperatures. All superconducting materials known at ordinary pressures currently work far below ambient temperatures and therefore require cooling. The positions of specimens marked 1a 1c 3a 3c used for the study of t c and j c b dependence in all samples are shown in fig.