Stress/Strain Induced Flux Pinning in Highly Dense Bulks

Stress/Strain Induced Flux Pinning in Highly Dense Bulks

We have systematically studied the flux pinning behavior of MgB 2 bulks synthesized by direct diffusion of Mg into pressed pellets of high purity crystalline B powder, with and without mixing with C and SiC nanoparticles, at a reaction temperature of 850 deg C for 10 hrs. All of the samples showed v...

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Veröffentlicht in:IEEE transactions on applied superconductivity 2009-06, Vol.19 (3), p.2722-2725
Hauptverfasser: Zeng, R., Shi Xue Dou, Lu, L., Li, W.X., Poh, C.K., Kim, J.H., Horvat, J., Shi, D.Q., Wang, J.L., Munroe, P., Wang, X.F., Zheng, R.K., Ringer, S.P., Rindfleisch, M., Tomsic, M.
Format: Artikel
Sprache:eng
Schlagworte:
Australia
Capacitive sensors
Critical current density
Crystallization
Flux pinning
Grain boundaries
Nanoparticles
Powders
Silicon carbide
strain field
Stress
Temperature
{\rm MgB}_{2}
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Zusammenfassung:We have systematically studied the flux pinning behavior of MgB 2 bulks synthesized by direct diffusion of Mg into pressed pellets of high purity crystalline B powder, with and without mixing with C and SiC nanoparticles, at a reaction temperature of 850 deg C for 10 hrs. All of the samples showed very high purity and high density, but their microstructure and flux pinning behavior showed significant differences. It was found that the pure MgB 2 agrees with the deltaT c pinning model, nano-C doped MgB 2 agrees with the delta l pinning model, while the SiC+MgB 2 composite agrees with the deltaepsiv pinning model (stress/strain field pinning), since the dominant micro-defects that influence the flux pinning in these three samples are different.
ISSN:1051-8223
1558-2515
DOI:10.1109/TASC.2009.2019577