Your search keyword '"Zhou, Shi H."' showing total 3 results

1. Transport critical current density in Fe-sheathed nano-SiC doped MgB2 wires

Author

Dou, Shi X., Horvat, Joseph, Soltanian, Saeid, Wang, Xiao L., Qin, Meng J., Zhou, Shi H., Liu, Hua K., and Munroe, Paul G

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science

Abstract

The nano-SiC doped MgB2/Fe wires were fabricated using a powder-in-tube method and an in-situ reaction process. The depression of Tc with increasing SiC doping level remained rather small due to the counterbalanced effect of Si and C co-doping. The high level SiC co-doping allowed creation of the intra-grain defects and nano-inclusions, which act as effective pinning centers, resulting in a substantial enhancement in the Jc(H) performance. The transport Jc for all the wires is comparable to the magnetic Jc at higher fields despite the low density of the samples and percolative nature of current. The transport Ic for the 10wt% SiC doped MgB2/Fe reached 660A at 5K and 4.5T (Jc = 133,000A/cm2) and 540A at 20K and 2T (Jc = 108,000A/cm2). The transport Jc for the 10wt% SiC doped MgB2 wire is more than an order of magnitude higher than for the state-the-art Fe-sheathed MgB2 wire reported to date at 5K and 10T and 20K and 5T respectively. There is a plenty of room for further improvement in Jc as the density of the current samples is only 50%., Comment: 4 pages, 7 figures, presented at ASC 2002, Houston

Published

2002

2. Transport critical current density in Fe-sheathed nano-SiC doped MgB2 wires

Author

Dou, Shi X., Horvat, Joseph, Soltanian, Saeid, Wang, Xiao L., Qin, Meng J., Zhou, Shi H., Liu, Hua K., and Munroe, Paul G.

Subjects

Semiconductor doping -- Methods, Electric currents -- Observations, Wire -- Properties, Business, Electronics, Electronics and electrical industries

Abstract

Discussing the study on the transport current and its field dependence for the nanometer-size SiC doped MgB2 wires. The results reveal that the nanometer size SiC doped MgB2/Fe wires can carry higher transport I(sub c) and J(sub c) in the magnetic fields ever reported for any form of MgB2.

Published

2003

3. Transport Critical Current Density in Fe-Sheathed Nano-SiC Doped MgB[sub 2] Wires.

Author

Dou, Shi X., Horvat, Joseph, Soltanian, Saeid, Wang, Xiao L., Qin, Meng J., Zhou, Shi H., Liu, Hua K., and Munroe, Paul G.

Subjects

NANOPARTICLES, SUPERCONDUCTORS

Abstract

The nano-SiC doped MgB[sub 2]/Fe wires were fabricated using a powder-in-tube method and an in-situ reaction process. The depression of T[sub c] with increasing SiC doping level remained rather small due to the counterbalanced effect of Si and C co-doping. The high level SiC co-doping allowed creation of the intra-grain defects and nano-inclusions, which act as effective pinning centers, resulting in a substantial enhancement in the J[sub c](H) performance. The transport J[sub c] for all the wires is comparable to the magnetic J[sub c] at higher fields despite the low density of the samples and percolative nature of current. The transport I[sub c] for the 10wt% SiC doped MgB[sub 2]/Fe reached 660A at 5K and 4.5T (J[sub c] = 133 000A/cm²) and 540A at 20K and 2T (J[sub c] = 108 000A/cm²). The transport J[sub c] for the 10wt% SiC doped MgB[sub 2] wire is more than an order of magnitude higher than for the state-the-art Fe-sheathed MgB[sub 2] wire reported to date at 5K and 10T and 20K and 5T respectively. There is a plenty of room for further improvement in J[sub c] as the density of the current samples is only 50%. [ABSTRACT FROM AUTHOR]

Published

2003