Microstructure control and micromechanical property enhancement of CoCrFeNiZr0.5 alloy under melt quenching and electrostatic levitation conditions.

MLA

Zhang, P. C., et al. “Microstructure Control and Micromechanical Property Enhancement of CoCrFeNiZr0.5 Alloy under Melt Quenching and Electrostatic Levitation Conditions.” Journal of Materials Science, vol. 58, no. 19, May 2023, pp. 8189–209. EBSCOhost, https://doi.org/10.1007/s10853-023-08511-6.

APA

Zhang, P. C., Zheng, C. H., Li, M. X., & Wang, H. P. (2023). Microstructure control and micromechanical property enhancement of CoCrFeNiZr0.5 alloy under melt quenching and electrostatic levitation conditions. Journal of Materials Science, 58(19), 8189–8209. https://doi.org/10.1007/s10853-023-08511-6

Chicago

Zhang, P. C., C. H. Zheng, M. X. Li, and H. P. Wang. 2023. “Microstructure Control and Micromechanical Property Enhancement of CoCrFeNiZr0.5 Alloy under Melt Quenching and Electrostatic Levitation Conditions.” Journal of Materials Science 58 (19): 8189–8209. doi:10.1007/s10853-023-08511-6.