Microstructures, absorption and adhesion evolution of FeCoCr/silicone resin coatings at elevated temperature

Abstract: Heat-resistant magnetic microwave absorption coatings are vital important for the stealth safety of apparatus working at elevated temperature or electromagnetic compatibility of high density/power electronic devices. In this work, we proposed a heat-resistant coating with nanocrystalline FeCoCr micropowders as the absorbents and silicone resin as the matrix. The evolution of microstructure, absorption and adhesion of FeCoCr/silicone resin coatings were investigated after heat treatment at 400°C. The results sh… Show more

“…Also, by adjusting composition, the magnetic resonance frequency can be purposely controlled or designed [13]. In addition, higher Curie temperatures (such as 770 • C for Fe and 1130 • C for Co) [14] indicate the potential of magnetic alloys as heatresistant absorbents [15][16][17]. However, due to the active chemical properties of magnetic metallic absorbents, severe oxidation causes performance deterioration at elevated temperatures [18].…”

Electromagnetic Property Modulation of Flaky Ferromagnetic 304 Stainless-Steel Powders for Microwave Absorption at Elevated Temperatures

“…Also, by adjusting composition, the magnetic resonance frequency can be purposely controlled or designed [13]. In addition, higher Curie temperatures (such as 770 • C for Fe and 1130 • C for Co) [14] indicate the potential of magnetic alloys as heatresistant absorbents [15][16][17]. However, due to the active chemical properties of magnetic metallic absorbents, severe oxidation causes performance deterioration at elevated temperatures [18].…”

Electromagnetic Property Modulation of Flaky Ferromagnetic 304 Stainless-Steel Powders for Microwave Absorption at Elevated Temperatures

Hierarchical etching-assembly engineering of Fe-based composite microspheres with balanced magnetic-dielectric synergy towards ultrahigh electromagnetic wave absorption