Archive/Structural Modification and Electromagnetic Response of Ball-Milled Nd-Fe-C Alloys
Structural Modification and Electromagnetic Response of Ball-Milled Nd-Fe-C Alloys
Ziqiang Qiao, Juan Liu, Zhenzhong Wang
1. Juli 2026
en

Abstract

With the rapid development of communication technologies, electromagnetic pollution has become increasingly serious, driving the urgent demand for high-performance low-frequency microwave absorbers. This work focuses on Nd-Fe-C powders prepared by high-energy ball milling, aiming to explore low-cost, mass-producible absorbing materials with excellent low-frequency microwave absorption performance. The Nd10.2Fe84.6C5.2 alloy was synthesized via arc melting, and its powders were subsequently fabricated by high-energy ball milling for different milling durations. X-ray diffraction, scanning electron microscopy, and vector network analysis were employed to investigate the effect of high-energy ball milling on the microwave absorption properties of the Nd10.2Fe84.6C5.2 alloy. As the ball milling time increased, the particle size decreased, and the minimum reflection loss shifted to a lower frequency. Additionally, increasing the thickness of the absorbing coating also moved the minimum reflection loss toward the low-frequency region. The Nd10.2Fe84.6C5.2 alloy after 12 h of ball milling had good performance in the C (4.0–8.0 GHz) band when the coating thickness was in the range from 1.4 to 2.2 mm. A minimum reflection loss of −19.2 dB was achieved at 5.2 GHz, and the effective absorption bandwidth (RL < −10 dB, corresponding to a microwave absorption efficiency of 90%) reached 1.8 GHz at a matching thickness of 2.2 mm.

IPC Classification

G06H04C07H01

Keywords

structuralmodificationelectromagneticresponseball-millednd-fe-calloysmagnetochemistryrapiddevelopmentcommunicationtechnologiespollutionbecomeincreasinglyseriousdrivingurgentdemandhigh-performancelow-frequencymicrowaveabsorberswork
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