Аннотации:
Thin (up to 100 µm) foils and coatings of high-entropy CrFeCoNiCux (x = 0...3.0) alloys (HEAs) were produced at different temperatures in the 525…1275 K range by electron-beam evaporation of ingots. It is
shown that CrFeCoNiCux (where x > 0.3) condensates deposited at a temperature above 925 K have a dualphase structure consisting of two FCC phases, while those deposited at a temperature below this value
exhibit a single-FCC structure. It is also found that annealing of the deposited single-phase CrFeCoNiCux
(x = 0.3…3.0) condensates at temperatures above 925 K results in the transition into a dual-FCC phase state.
Yet, condensates with the copper content x < 0.3 remain stable at heating up to high temperatures (up to
1300 K). The transition from single-phase condensates into dual-phase condensates occurs through the
formation of the metastable Cr-enriched phase. The effect of the condensate structure on their mechanical
and dissipative properties is considered. The single-phase condensates exhibit increased microhardness, as
compared to the cast alloy. The microhardness of the two-phase condensates is lower than in single-phase
ones but still higher than in the cast ingot. HEA-based vacuum condensates in both single-phase and twophase states show high values of damping capacity, which are comparable with those of highly damping
materials, such as AZ31B-F magnesium alloys.
