Li, J., Sun, L., Du, T., Cui, Y., Li, J., & Wang, J. High temperature interaction of Y4Al2O9/Y2O3 under CMAS exposure: Mechanism of outstanding corrosion resistance through composition design to accelerate reaction-induced CMAS consumption. Tsinghua University Press.
Chicago Style (17th ed.) CitationLi, Jie, Luchao Sun, Tiefeng Du, Yang Cui, Jialin Li, and Jingyang Wang. High Temperature Interaction of Y4Al2O9/Y2O3 Under CMAS Exposure: Mechanism of Outstanding Corrosion Resistance Through Composition Design to Accelerate Reaction-induced CMAS Consumption. Tsinghua University Press.
MLA (9th ed.) CitationLi, Jie, et al. High Temperature Interaction of Y4Al2O9/Y2O3 Under CMAS Exposure: Mechanism of Outstanding Corrosion Resistance Through Composition Design to Accelerate Reaction-induced CMAS Consumption. Tsinghua University Press.