Electromagnetic wave absorption properties for FeCoNiCr alloy powders with magnetic field heat treatment

We investigated the effect of magnetic field heat treatment on electromagnetic wave absorption properties of FeCoNiCr alloy powders. The electromagnetic wave absorption properties of FeCoNiCr alloy powders for as-prepared, heating without magnetic field, and heating with magnetic field of 10 T are compared. The as-prepared FeCoNiCr alloy powders were fabricated by mechanical alloying with mixture structure of BCC and FCC, then the structure of powders transformed from mixture-phase of BCC and FCC to FCC-phase. The results indicate that the heat treatment with magnetic field is critical to the electromagnetic wave absorption properties of FeCoNiCr alloy powders when blended with 40 wt% in paraffin-based samples. The reflection loss (RL) of as-prepared FeCoNiCr alloy powders is only −20.93 dB. However, FeCoNiCr alloy powders heating with magnetic field exhibit the best RL of −60.96 dB and FeCoNiCr alloy powders heating without magnetic field show a RL_min of −32.58 dB. The present work has a significant potential for development of EM wave absorbing materials with magnetic field heat treatment.