9 - Fabric/textile/wood-based nanocomposites

Abstract

In recent years, the global call for electromagnetic wave shielding fabrics has increased in the electronics and military field and also shielding clothes owing to their lightweight, flexible, and outstanding electromagnetic wave shielding characteristics. Also, the development of magnetic spinel ferrite and natural wood-based composites would be advantageous as an advanced electromagnetic wave absorbing composite material due to its appropriate physical and chemical characteristics such as heat and sound insulation, high ratio of strength to weight, and low density, etc. Therefore, the electromagnetic wave shielding composite based on natural wood is required to be considered and investigated broadly. In this book chapter, we explored the recent advances in fabrics/textiles/wood-based nanocomposites for electromagnetic interference shielding applications. Magnetic loss and dielectric loss are responsible for high-performance electromagnetic wave shielding performance. In this context, spinel ferrite can be a versatile choice for electromagnetic interference shielding applications with a combination of cotton fabrics and natural wood.