Electromagnetic wave shielding effectiveness of Fe 73.5Si 13.5B 9Nb 3Cu 1 powder/epoxy composites

Abstract

Magnetic powders composed of Fe 73.5Si 13.5B 9Nb 3Cu 1 were prepared using a ball milling technique, and selected powders were annealed at 823 K in a vacuum. Scanning electron microscopy observations determined the shapes of the powders to be of a flake type. To test the electromagnetic wave absorption properties, Fe 73.5Si 13.5B 9Nb 3Cu 1 and epoxy composites were fabricated using an electron beam curing technique with powder/epoxy ratios of 20/80, 30/70, 40/60, and 50/50 by weight. The complex permeability and permittivity of the composites were measured using a network analyzer (0.5–8 GHz), and were used to calculate the refection losses as a function of the composite thickness and frequency. The band width of a reflection loss below −20 dB was 700 MHz from 4.23 GHz to 4.93 GHz at 3.8 mm thickness, attributed to the composite containing 50 wt% of powder. For the composite containing 50 wt% of annealed powder, the minimum reflection loss was observed near 8 GHz at 2.8 mm thickness.