Rapid formation of 200 m-long YBCO coated conductor by multi-stage CVD

Toward the industrialization of YBa2Cu3O7-x (YBCO) coated conductors for practical applications, metal-organic chemical vapor deposition (MOCVD) has been investigated. We applied multi-stage MOCVD to achieve high-speed production of coated conductor because the increase of the number of depositing stages placed in a line could enlarge deposition area. Using 12-stage CVD, we succeeded in deposition of highly biaxially oriented YBCO layer at tape transfer speed of 50 m/h on the CeO2 capped ion-beam-assisted-deposition (IBAD) - Gd2Zr2O7 (GZO) buffered Hastelloy tape, and achieved high critical current density (J(c)) exceeding 2 MA/cm(2) in a short sample. And it was found that lowering substrate temperature according to YBCO layer growth was effective to increase I-c. Using this method, high critical current (I-c) of 174 A was achieved by 1 mu m thick YBCO layer which passed through 12-stage CVD, and 227 A by 1 mu m thick YBCO layer deposited by 6-stage one. Based on these results, three 200 m-class YBCO layers were deposited by multiple depositions at tape speed of 50 m/h each, using the 12-stage CVD system. A 203 m-long YBCO layer was successfully deposited with end-to-end I-c of 92.8 A, so that the multiplication of I-c and length reached 18.8 kA center dot m. These results indicate that a multi-stage CVD technique is useful for a rapid fabrication of long YBCO coated conductor.