Progress in R＆D of coated conductor in M-PACC project

Abstract: The five-year national project in Japan for R&D of coated conductors and applications, named as the Materials and Power Applications of Coated Conductors (M-PACC) project, was finished at the end of FY2013. The project consists of four sub-themes as cable, transformer, SMES and coated conductors. In the theme of coated conductors, the fabrication process had been developed to satisfy the requirements from the applications such as in-field I c performance, low AC loss in the long tapes etc. Through the project,… Show more

“…The J c value of the 2.2 thick film compares well with the record-high J c value of 20.1 MA cm −2 reported at 30 K, 3 T [19] (in this case in a 0.9 μm thick, 25 mol% Zr-added film). Hence contrary to previous findings with PLD [10,20], our results show that high critical current values in films thicker than 2 μm is possible even with BZO addition just as it has been with BHO addition. Further, our results confirm that high quality thick films can be made even with heavily-doped REBCO.…”

“…These defects could include the Cu-Zr nanoparticles that were found near the BZO nanocolumns in heavily-doped (Gd,Y)BCO tape [19] as well as stacking faults that are abundantly found. The I c,min value at 3 T corresponds to a J c,min value of 12.46 MA cm −2 which compares to a J c value of 7 MA cm −2 reported in a recent work on 3.9 μm thick film of BHO-doped EuBa 2 Cu 3 O x tape that had exhibited a high I c,min value of 141 A cm −1 at 77 K, 3 T [20,28]. Our results reveal that high in-field performance can be achieved in thick films of REBCO coated conductors regardless of the type of dopant and rare earth used.…”

“…The minimum value of critical current (I c,min ) in angular dependence measurements has been viewed as an important parameter since a wide range of field orientations is experienced in superconducting coils. There has been be a substantial effort placed in enhancing the I c,min value especially at 77 K in fields of 1-3 T [10,20,28]. We had previously shown that the I c values at 77 K, 3 T, B||c rather than I c,min values at 77 K correlate well with I c,min values at lower temperatures [18].…”

“…It was discovered that REBCO films with well-aligned nanocolumns of BZO exhibited the highest lift factor in critical current (ratio of critical current at a particular temperature and magnetic field to the critical current at 77 K, zero field) [18]. There have been reports that the alignment of BZO nanocolumns degrade with increasing film thickness resulting in reduced improvement in critical current of BZOdoped REBCO films thicker than 2 μm [20]. Hence, a purpose of this study was to examine the critical current of heavily Zrdoped REBCO tapes made by MOCVD with film thickness over 2 μm.…”

Critical current density above 15 MA cm⁻²at 30 K, 3 T in 2.2μm thick heavily-doped (Gd,Y)Ba₂Cu₃O_xsuperconductor tapes

“…The J c value of the 2.2 thick film compares well with the record-high J c value of 20.1 MA cm −2 reported at 30 K, 3 T [19] (in this case in a 0.9 μm thick, 25 mol% Zr-added film). Hence contrary to previous findings with PLD [10,20], our results show that high critical current values in films thicker than 2 μm is possible even with BZO addition just as it has been with BHO addition. Further, our results confirm that high quality thick films can be made even with heavily-doped REBCO.…”

“…These defects could include the Cu-Zr nanoparticles that were found near the BZO nanocolumns in heavily-doped (Gd,Y)BCO tape [19] as well as stacking faults that are abundantly found. The I c,min value at 3 T corresponds to a J c,min value of 12.46 MA cm −2 which compares to a J c value of 7 MA cm −2 reported in a recent work on 3.9 μm thick film of BHO-doped EuBa 2 Cu 3 O x tape that had exhibited a high I c,min value of 141 A cm −1 at 77 K, 3 T [20,28]. Our results reveal that high in-field performance can be achieved in thick films of REBCO coated conductors regardless of the type of dopant and rare earth used.…”

“…The minimum value of critical current (I c,min ) in angular dependence measurements has been viewed as an important parameter since a wide range of field orientations is experienced in superconducting coils. There has been be a substantial effort placed in enhancing the I c,min value especially at 77 K in fields of 1-3 T [10,20,28]. We had previously shown that the I c values at 77 K, 3 T, B||c rather than I c,min values at 77 K correlate well with I c,min values at lower temperatures [18].…”

“…It was discovered that REBCO films with well-aligned nanocolumns of BZO exhibited the highest lift factor in critical current (ratio of critical current at a particular temperature and magnetic field to the critical current at 77 K, zero field) [18]. There have been reports that the alignment of BZO nanocolumns degrade with increasing film thickness resulting in reduced improvement in critical current of BZOdoped REBCO films thicker than 2 μm [20]. Hence, a purpose of this study was to examine the critical current of heavily Zrdoped REBCO tapes made by MOCVD with film thickness over 2 μm.…”

Critical current density above 15 MA cm⁻²at 30 K, 3 T in 2.2μm thick heavily-doped (Gd,Y)Ba₂Cu₃O_xsuperconductor tapes

“…8. We succeeded in improving the withdrawal rate of dip-coating from 5 m/h [18] to 50 m/h. These results suggest that the application of the proposed approach to industrial coating processes is possible.…”

High Performance Coated Conductors Fabricated by UTOC-MOD Process