Gajda, D.; Babij, M.; Zaleski, A.; Avci, D.; Yetis, H.; Belenli, I.; Karaboga, F.; Szymanski, D.; Czujko, T.
The Influence of Two-Region Morphology and Grain Shape on the Transport Critical Current Density in the Range from 15 K to 30 K in SiC-Doped MgB2 Wires Fabricated by the Powder-in-Tube Method. Materials 2025, 18, 3960.
https://doi.org/10.3390/ma18173960
AMA Style
Gajda D, Babij M, Zaleski A, Avci D, Yetis H, Belenli I, Karaboga F, Szymanski D, Czujko T.
The Influence of Two-Region Morphology and Grain Shape on the Transport Critical Current Density in the Range from 15 K to 30 K in SiC-Doped MgB2 Wires Fabricated by the Powder-in-Tube Method. Materials. 2025; 18(17):3960.
https://doi.org/10.3390/ma18173960
Chicago/Turabian Style
Gajda, Daniel, Michał Babij, Andrzej Zaleski, Dogan Avci, Hakan Yetis, Ibrahim Belenli, Fırat Karaboga, Damian Szymanski, and Tomasz Czujko.
2025. "The Influence of Two-Region Morphology and Grain Shape on the Transport Critical Current Density in the Range from 15 K to 30 K in SiC-Doped MgB2 Wires Fabricated by the Powder-in-Tube Method" Materials 18, no. 17: 3960.
https://doi.org/10.3390/ma18173960
APA Style
Gajda, D., Babij, M., Zaleski, A., Avci, D., Yetis, H., Belenli, I., Karaboga, F., Szymanski, D., & Czujko, T.
(2025). The Influence of Two-Region Morphology and Grain Shape on the Transport Critical Current Density in the Range from 15 K to 30 K in SiC-Doped MgB2 Wires Fabricated by the Powder-in-Tube Method. Materials, 18(17), 3960.
https://doi.org/10.3390/ma18173960