Abstract
FeCoNiMnSix (x = 0.1, 0.2, 0.3, 0.4, and 0.5) HEAs were synthesized by utilizing a novel high-energy ball-milling technique. When the Si content reached 0.3, the phase structure will transform from FCC to BCC. In terms of high-temperature oxidation resistance, Si may dramatically minimize the oxidation level of the alloys at high temperatures, hence improving the high-temperature oxidation resistance. The addition of Si to the alloys had slight influence on the corrosion resistance. Additionally, incorporating an appropriate amount of Si may also reduce magnetic loss, promote impedance matching, and improve electromagnetic-wave loss capabilities. FeCoNiMnSi0.3 exhibits good electromagnetic-wave absorption capability with a minimum reflection loss value of − 48.6 dB at 4.24 GHz and an effective absorption width of 4.81 GHz at 2.03 mm thickness. This study is necessary for the investigation of electromagnetic-wave materials with practical applications at high temperatures.
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