Download This PaperNovel Carbonitriding Process of High-Entropy Alloys Using Mechanochemical Process for Obtaining Excellent High-Frequency Electromagnetic Properties
23 Pages Posted: 28 Mar 2024
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Novel Carbonitriding Process of High-Entropy Alloys Using Mechanochemical Process for Obtaining Excellent High-Frequency Electromagnetic Properties
Novel Carbonitriding Process of High-Entropy Alloys Using Mechanochemical Process for Obtaining Excellent High-Frequency Electromagnetic Properties
Abstract
Achieving excellent electromagnetic-wave absorption (EMA) performances and outstanding multifunctional physicochemical properties in complicated application environments is a great challenge for high-entropy alloys (HEAs) absorber. To accomplish this goal, a novel mechanochemical carbonitriding technique is designed. Carbonitriding FeCoNiCu HEAs with flake-like morphology is successfully prepared by a mechanochemical method using the cyano-compound (melamine, C3H6N6) and metal powders as raw materials. Through the investigation of phase structure, magnetic properties, corrosion resistance, oxidation resistance and EMA performances of the samples, it can be found that the carbonitriding process optimizes the high-frequency electromagnetic matching of HEAs, and realizes excellent EMA performances. With the introduction of melamine, S003 sample has a reflection loss of -55.8 dB with an effective absorption bandwidth of 3.82 GHz, and S006 sample achieves a strong absorption of -61.8 dB. In addition, the carbonitriding FeCoNiCu HEAs exhibit excellent corrosion resistance and mechanical hardness. This work not only demonstrates the potential of carbonitriding HEAs for EMA applications, but also provides a new concept for optimizing the electromagnetic impedance matching of HEAs.
Keywords: Carbonitriding, Electromagnetic-wave absorption, High-entropy alloys, Mechanochemical method, Impedance match.
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