Al24.2Si3.25Cu24.2Ni24.2Ti24.2 high-entropy intermetallic alloy: Effect of nitrogen environment sintered microstructure and mechanical properties
SYED FIDA HASSAN, GHAITH JAMAL NADHREEN
vol. 60 (2022), no. 3, pp. 163 - 170
DOI: 10.31577/km.2022.3.163
Abstract
 In this study, a lightweight Al24.2Si3.25Cu24.2Ni24.2Ti24.2 high-entropy alloy was developed by sonication blending of the pure elements followed by the high-temperature sintering in the nitrogen gas environment. Microstructural characterization of the sintered alloy showed a fair dispersion of the elemental particles in the matrix during the blending process and the absorption of nitrogen, which led to the formation of multiple intermetallic compounds, including the nitrides, during the sintering process. Mechanical characterization of the sintered alloy revealed significantly high microhardness values with relatively lower compressive strength in Al24.2Si3.25Cu24.2Ni24.2Ti24.2 alloy. Key words
high-entropy alloy, powder metallurgy, nitrogen, mechanical property ![[open article.pdf]](full_yes.gif) Full text (1438 KB)
|
![[Kovove materialy - Metallic materials]](km_MM.gif)
![[IMMS SAS]](ummslogo1.gif)
![[go to HOME PAGE]](home2.gif)
