Abstract
MgB(2) superconducting wires and bulks with nano-La(2)O(3) addition have been studied. A series of MgB(2) superconducting bulk samples with nano-La(2)O(3) addition levels of 0, 5, 7, 18wt% were prepared. AC resistivity data showed slight increases of Bc (2) and unchanged B (irr) for the bulk samples with doping levels lower than 7 wt% and decreased critical fields for the heavily doped (18 wt%) bulk. X-ray diffraction (XRD) showed the presence of LaB(6) in the nano-La(2)O(3) doped MgB(2) bulk samples and decreased MgB(2) grain size in nano-La(2)O(3) doped bulks. Monocore powder-in-tube (PIT) MgB(2) wires without and with 5 wt% nano-La(2)O(3) addition (P-05) were prepared for transport property measurement. 2mol%C-doped Specialty Materials Inc. (SMI) boron powder was used for wire P-05 and previously prepared control wires (control wires were made without the addition of nano-La(2)O(3) powder, W-00 and P2). Low field magnetic properties were obtained from magnetization loop (M-H), transport critical current density (J (c) ) was measured at 4.2 K for the nano-La(2)O(3) doped PIT wire (P-05) and the control samples (P2 and W-00). The transport critical current density J (c) (B) of P-05 at 4.2 K and 8 T (6.0 ×10(4) A/cm(2)) was twice that of the control wire. The critical magnetic fields (Bc (2) and B (irr) ) of P-05 and the control sample P2 were compared. The critical fields of P-05 were slightly less than those of P2. Kramer-Dew-Hughes plots indicated a change from surface pinning to a mixture of volume pinning and surface pinning. It is shown that enhancement of P-05's transport properties is due to additional flux pinning by the fine-size rare-earth borides rather than enhanced Bc (2) or B (irr) .