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Meeting	Materials Science & Technology 2019
Symposium	Powder Metallurgy of Light, Reactive and Other Non-ferrous Metals
Presentation Title	Phase Diagram and Mechanical Properties of a CoCrFeNi_1-xTi_x High Entropy Alloy Fabricated by Mechanical Alloying
Author(s)	Geraldine Anis, Mostafa Youssef, Moataz Attallah, Hanadi Salem
On-Site Speaker (Planned)	Geraldine Anis
Abstract Scope	High entropy alloys (HEA) have gained significant interest from researchers in recent years due to their potential to outperform conventional alloys in many applications, especially in high-temperature, tribological, and biomedical engineering applications. In this study, a phase diagram of the CoCrFeNi_1-xTi_x alloy system produced by the Calculation of Phase Diagrams (CALPHAD) method is presented. The developed diagram was used to select a non-equiatomic composition of the CoCrFeNi_1-xTi_x alloy that results in a single face-centered cubic (FCC) solid solution phase. Using the selected composition, a HEA was fabricated by mechanical alloying and characterized for its structural evolution and mechanical properties. Sintering was employed for the consolidation of the powders. This study capitalizes on the use of computational methods for the effective design of HEAs with predetermined structures for desired applications

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