Your search keyword '"Rindfleisch, M"' showing total 12 results

1. Experimental research of high field pinning centers in 2% C doped MgB2 wires at 20 K and 25 K.

Author

Gajda, D., Morawski, A., Zaleski, A. J., Häßler, W., Nenkov, K., Małecka, M., Rindfleisch, M. A., Hossain, M. S. A., and Tomsic, M.

Subjects

HIGH field effects (Electric fields), ELECTRIC field effects, CARBON compounds, CHEMICAL synthesis, SEMICONDUCTOR doping, MAGNETIC field effects

Abstract

High field pinning centers in MgB2 doped with 2 at. % carbon under a low and a high hot isostatic pressures have been investigated by transport measurements. The field dependence of the transport critical current density was analyzed within the different pinning mechanisms: surface pinning, point pinning, and pinning due to spatial variation in the Ginzburg-Landau parameter (Δκ pinning). Research indicates that a pressure of 1 GPa allows similar pinning centers to Δκ pinning centers to be obtained. This pinning is very important, because it makes it possible to increase the critical current density in high magnetic fields at 20K and 25 K. Our results indicate that the δTc and dl pinning mechanisms, which are due to a spatial variation in the critical temperature (Tc) and the mean free path, l, respectively, create dislocations. The high density of dislocations with inhomogeneous distribution in the structure of the superconducting material creates the δl pinning mechanism. The low density of dislocations with inhomogeneous distribution creates the δTc pinning mechanism. Research indicates that the hot isostatic pressure process makes it possible to obtain a high dislocation density with a homogeneous distribution. This allows us to obtain the δTc pinning mechanism in MgB2 wires. In addition, a high pressure increases the crossover field from the single vortex to the small vortex bundle regime (Bsb) and improves the δTc pinning mechanism. Our research has proved that a high pressure significantly increases the crossover field from the small bundle to the thermal regime (Bth), with only a modest decrease in Tc of 1.5K, decreases the thermal fluctuations, increases the irreversibility magnetic field (Birr) and the upper critical field (Bc2) in the temperature range from 4.2K to 25K, and reduces Birr and Bc2 above 25K. [ABSTRACT FROM AUTHOR]

Published

2016

2. The critical parameters in in-situ MgB2 wires and tapes with ex-situ MgB2 barrier after hot isostatic pressure, cold drawing, cold rolling and doping.

Author

Gajda, D., Morawski, A., Zaleski, A. J., Häßler, W., Nenkov, K., Rindfleisch, M. A., Żuchowska, E., Gajda, G., Czujko, T., Cetner, T., and Hossain, M. S. A.

Subjects

NANOWIRES, MAGNETIC coupling, MAGNETIC materials, MAGNETIC fields, MAGNETIZATION

Abstract

MgB2 precursor wires were prepared using powder in tube technique by Institute of High Pressure PAS in Warsaw. All samples were annealed under isostatic pressure generated by liquid Argon in the range from 0.3 GPa to 1 GPa. In this paper, we show the effects of different processing routes, namely, cold drawing (CD), cold rolling (CR), hot isostatic pressure (HIP) and doping on critical current density (Jc), pinning force (Fp), irreversible magnetic-field (Birr), critical temperature (Tc), n value, and dominant pinning mechanism in MgB2/Fe wires with ex situ MgB2 barrier. The results show that medium pressures (∼0.35 GPa) lead to high Jc in low and medium magnetic fields (0 T - 9 T). On the other hand, higher pressures (∼1 GPa) lead to enhanced Jc in high magnetic fields (above 9 T). Transport measurements show that CD, CR, and HIP have small effects on Birr and Tc, but CD, CR, HIP, and doping enhance Jc and Fp in in situ MgB2 wires with ex situ MgB2 barrier. Transport measurements on in situ undoped MgB2 wire with ex situ MgB2 barrier yield a Jc of about 100 A/mm2 at 4.2K in 6 T, at 10K in 4 T and at 20K in 2 T. The results also show that cold drawing causes increase of n value. [ABSTRACT FROM AUTHOR]

Published

2015

3. A comparative study on field, temperature, and strain dependences of the critical current for doped and undoped MgB2 wires based on the percolation model.

Author

Oh, Sangjun, Kim, J. H., Cho, Kyuhwan, Lee, Chulhee, Kim, Chan-Joong, Dou, S. X., Rindfleisch, M., Tomsic, M., and Ahn, Jung-Ho

Subjects

WIRE, CRITICAL currents, ELECTRIC currents, SUPERCONDUCTIVITY, ANISOTROPY

Abstract

Field, temperature, and strain dependences of the critical current for a SiC doped multifilamentary in situ MgB2 wire have been studied. Measurement results were compared with that of the undoped wire, and the origin of the difference in the critical current is discussed. The critical current can be calculated with the percolation model considering the effect of anisotropy. The temperature dependence of the fitting parameters, the upper critical field along the ab-plane, and c-axis is compared with the dirty-limit two-gap theory. To assess the validity of the fitting parameters, resistive transition has been measured especially to extract the upper critical field directly. It is shown that even the resistive broadening can be well explained by a simple parallel path model using the fitting parameters obtained from the critical current analysis. [ABSTRACT FROM AUTHOR]

Published

2009

4. Excess Mg addition MgB2/Fe wires with enhanced critical current density.

Author

Zeng, R., Lu, L., Li, W. X., Wang, J. L., Shi, D. Q., Horvat, J., Dou, S. X., Bhatia, M., Sumption, M., Collings, E. W., Yoo, J. M., Tomsic, M., and Rindfleisch, M.

Subjects

MAGNESIUM, MICROMECHANICS, STOICHIOMETRY, SUPERCONDUCTORS, IRON metallurgy, CRITICAL currents

Abstract

MgB2/Fe wires with 10 at. % excess Mg produced by in situ powder-in-tube processing were compared to normal stoichiometric MgB2/Fe wires prepared by the same method. It was found that the critical current density (Jc) and the irreversibility field (Hirr) were significantly enhanced for MgB2/Fe wires with excess Mg. The transport Jc for 10 at. % Mg excess samples sintered at 800 °C, measured at a field of up to 14 T, increased by a factor of 2 compared to that for the normal MgB2 wires. The best Jc results for the 10 at. % Mg excess sample were obtained by heating the sample at 600 °C for 1 h; the Jc at a field of 8 T and at temperature of 10 K reached 3×104 A/cm2. The detailed analysis of the effect of excess Mg on the microstructures, the Jc, and the Hirr, of MgB2/Fe wires are presented in this paper. [ABSTRACT FROM AUTHOR]

Published

2008

5. Phase transformation and superconducting properties of MgB2 using ball-milled low purity boron.

Author

Xu, X., Kim, J. H., Hossain, M. S. A., Park, J. S., Zhao, Y., Dou, S. X., Yeoh, W. K., Rindfleisch, M., and Tomsic, M.

Subjects

PHASE transitions, SUPERCONDUCTORS, CRYSTAL grain boundaries, TWINNING (Crystallography), SUPERCONDUCTIVITY

Abstract

MgB2 samples were prepared by using 96% boron (B) powder with strong crystalline phase that had been ball milled for various times. We observed samples that contained ball-milled 96% B in comparison with one made from as-supplied commercial 96% B, with the results showing a significant enhancement in the high field critical current density (Jc) due to small grain size and better reactivity. Specifically, many grain boundaries for MgB2 could be acting as strong flux pinning centers. Based on Rowell connectivity analysis, when the ball-milling time increased, the connectivity factor, described as the active cross-sectional area fraction (AF), was decreased. This implies that the intergrain connectivity became worse. These properties could lead to poor Jc in low field. However, the pinning force strength, Jc1/2×B1/4, of samples using ball-milled 96% B is larger than that of the reference sample using commercial 96% B powder. These results accompany enhanced irreversibility (Hirr) and upper critical fields (Hc2). [ABSTRACT FROM AUTHOR]

Published

2008

6. A comparative study on field, temperature, and strain dependence of the critical current for doped and undoped Mg[B.sub.2] wires based on the percolation model

Author

Sangjun Oh, Kim, J.H., Kyuhwan Cho, Chulhee Lee, Chan-Joong Kim, Dou, S.X., Rindfleisch, M., Tomsic, M., and Jung-Ho Ahn

Subjects

Magnesium compounds -- Electric properties, Magnesium compounds -- Thermal properties, Semiconductor doping -- Analysis, Silicon carbide -- Electric properties, Silicon carbide -- Thermal properties, Silicon carbide -- Structure, Physics

Abstract

Field, temperature and strain dependence of the critical current for a SiC doped multifilamentary in situ Mg[B.sub.2] wire are analyzed by using percolation model. The validity of the fitting parameters is assessed by measuring the resistive transition to extract the upper critical field directly.

Published

2009

7. Excess Mg addition Mg[B.sub.2]/Fe wires with enhanced critical current density

Author

Zeng, R., Lu, L., Li, W.X., Wang, J.L., Shi, D.Q., Horvat, J., Dou, S.X., Bhatia, M., Sumption, M., Collings, E.W., Yoo, J.M., Tomsic, M., and Rindfleisch, M.

Subjects

Electrical conductivity -- Analysis, Iron -- Electric properties, Magnesium -- Electric properties, Stoichiometry -- Analysis, Physics

Abstract

Mg[B.sub.2]/Fe wires with excess Mg produced by in situ powder-in-tube processing are compared to normal stoichiometric Mg[B.sub.2]/Fe wires prepared by the same method. The effect of excess Mg on the microstructures, the critical current density and the irreversibility field of Mg[B.sub.2]/Fe wires is analyzed.

Published

2008

8. Phase transformation and superconducting properties of Mg[B.sub.2] using ball-milled low purity boron

Author

X. Xu, J.H. Kim, Hossain, M.S.A., Park, J.S., Y. Zhao, S.X. Dou, W.K. Yeoh, Rindfleisch, M., and Tomsic, M.

Subjects

Ball mills -- Technology application, Superconductive devices -- Analysis, Crystals -- Structure, Crystals -- Analysis, Technology application, Physics

Abstract

The superconducting properties of Mg[B.sub.2] made from low-grade 96% B powder with a strong crystalline phase as a function pf ball-milling time are examined. The pinning force strength of the samples using ball-milled 96% B is larger than that of the reference sample using commercial 96% B powder and these have accompanied enhanced irreversibility and upper critical fields.

Published

2008

9. Experimental research of high field pinning centers in 2% C doped MgB2 wires at 20 K and 25 K

Author

Gajda, D., primary, Morawski, A., additional, Zaleski, A. J., additional, Häßler, W., additional, Nenkov, K., additional, Małecka, M., additional, Rindfleisch, M. A., additional, Hossain, M. S. A., additional, and Tomsic, M., additional

Published

2016

10. The critical parameters in in-situ MgB2 wires and tapes with ex-situ MgB2 barrier after hot isostatic pressure, cold drawing, cold rolling and doping

Author

Gajda, D., primary, Morawski, A., additional, Zaleski, A. J., additional, Häßler, W., additional, Nenkov, K., additional, Rindfleisch, M. A., additional, Żuchowska, E., additional, Gajda, G., additional, Czujko, T., additional, Cetner, T, additional, and Hossain, M. S. A., additional

Published

2015

11. A comparative study on field, temperature, and strain dependences of the critical current for doped and undoped MgB2 wires based on the percolation model

Author

Oh, Sangjun, primary, Kim, J. H., additional, Cho, Kyuhwan, additional, Lee, Chulhee, additional, Kim, Chan-Joong, additional, Dou, S. X., additional, Rindfleisch, M., additional, Tomsic, M., additional, and Ahn, Jung-Ho, additional

Published

2009

12. Phase transformation and superconducting properties of MgB2 using ball-milled low purity boron

Author

Xu, X., primary, Kim, J. H., additional, Hossain, M. S. A., additional, Park, J. S., additional, Zhao, Y., additional, Dou, S. X., additional, Yeoh, W. K., additional, Rindfleisch, M., additional, and Tomsic, M., additional

Published

2008