posted on 2017-09-13, 08:16authored bySimon C. Hopkins, Tom B. Mitchell-Williams, Dries R Vanden Bussche, Albert Calleja, Valentina Roxana Vlad, Marta Vilardell, Xavier Granados, Teresa Puig, Xavier Obradors, Alexander Usoskin, Mykola Soloviov, Michal Vojenciak, Fedor Gomory, Isabel Van Driessche, Michael Backer, Bartek A. Glowacki
Impressive performance has been achieved in (RE)Ba2Cu3O7-delta (REBCO) coated conductors, but for many applications, the high cost and ac losses remain prohibitive. Inkjet printing methods combine scalability and low equipment cost with high-resolution patterning, potentially addressing both issues by enabling the production of multifilamentary coated conductors without subtractive processing. The successful production of multifilamentary superconducting YBa2Cu3O7-delta (YBCO) structures by inkjet printing of a low-fluorine YBCO precursor solution on SS/ABAD-YSZ/CZO substrates is reported. Two approaches have been developed. In the first method, YBCO filaments were directly deposited on the buffered substrate by piezoelectric printing; and in the second approach, CeO2 tracks were first printed to pattern a subsequently overprinted YBCO film, creating a multifilamentary structure by an inverse technique. Scanning Hall probe measurements have been used to compare the filamentary structures and critical currents achieved by both methods, and a J(c) of up to 3 MA cm(-2) has been obtained at 77 K. For the inverse printing approach, the ac hysteresis losses have been also measured and compared with theoretical models.
Funding
Study on Aerodynamic Characteristics Control of Slender Body Using Active Flow Control Technique