Material Science Perspectives in Composite Hybridization

Abstract

Technological advancement requires durable, lightweight materials that are characterized by enhanced strength and could be utilized on a broad spectrum. By combining various properties from the elements they are created from, composite materials fit this role perfectly. This chapter examines the unique properties and specific characteristics of different types of composite materials. Moreover, it delves into friction stir techniques and how to best utilize them to enhance the mechanical and thermal properties of composite materials. This chapter elucidates how utilizing friction stir techniques for composite hybridization can improve the mechanical performance, durability, and utility. The investigation of friction stir methods has highlighted their significance in improving the mechanical and thermal properties of hybrid composite materials. Advanced properties of hybrid composite material were obtained by exploring the impact of composite hybridization using friction stir techniques. Improvements in functionality, durability, and mechanical performance of hybrid composites have been stated using FSTs.