In-situ microwave characterization of ferromagnetic microwires-filled polymer composites: a review

TL;DR

This review explores the physics, tunable microwave properties, and potential applications of ferromagnetic microwire-filled polymer composites, emphasizing the importance of microwire tailoring for enhanced microwave performance.

Contribution

It provides a comprehensive overview of the emerging research on ferromagnetic microwire composites, highlighting their tunable properties and potential applications.

Findings

Tunable magnetic field and mechanical stress responses

Influence of direct current on microwave behavior

Potential for structural health monitoring and sensors

Abstract

This review describes the emerging research area and relevant physics of polymer-based composites enabled by amorphous ferromagnetic microwires. Fruitful results ranging from their tunable magnetic field and mechanical stress properties and influences of direct current on their microwave behavior are displayed in addition to the brief analysis on the underlying physics. The multifunctionalities exhibited strongly imply a variety of potential applications such as structural health monitoring and high-performance sensors. This article underlines that the future challenge mainly lies in proper microwire tailoring in expectation of a better microwave performance of microwire composites