Bordeasu, I.; Bordeasu, D.; Micu, L.-M.; Tatu, F.-S.; Sirbu, N.-A.; Popescu, R.-N.; Ghera, C.; Pirvulescu, L.-D.; Luca, A.-N.; Ghiban, B.;
et al. Cavitation Erosion of the Biodegradable AM50 Alloy After Artificial Aging Heat Treatment. Metals 2026, 16, 684.
https://doi.org/10.3390/met16060684
AMA Style
Bordeasu I, Bordeasu D, Micu L-M, Tatu F-S, Sirbu N-A, Popescu R-N, Ghera C, Pirvulescu L-D, Luca A-N, Ghiban B,
et al. Cavitation Erosion of the Biodegradable AM50 Alloy After Artificial Aging Heat Treatment. Metals. 2026; 16(6):684.
https://doi.org/10.3390/met16060684
Chicago/Turabian Style
Bordeasu, Ilare, Dorin Bordeasu, Lavinia-Madalina Micu, Filip-Sebastian Tatu, Nicusor-Alin Sirbu, Radu-Nicolae Popescu, Cristian Ghera, Liviu-Daniel Pirvulescu, Alexandru-Nicolae Luca, Brandusa Ghiban,
and et al. 2026. "Cavitation Erosion of the Biodegradable AM50 Alloy After Artificial Aging Heat Treatment" Metals 16, no. 6: 684.
https://doi.org/10.3390/met16060684
APA Style
Bordeasu, I., Bordeasu, D., Micu, L.-M., Tatu, F.-S., Sirbu, N.-A., Popescu, R.-N., Ghera, C., Pirvulescu, L.-D., Luca, A.-N., Ghiban, B., & Faur, R.
(2026). Cavitation Erosion of the Biodegradable AM50 Alloy After Artificial Aging Heat Treatment. Metals, 16(6), 684.
https://doi.org/10.3390/met16060684
