Affiliation:
1. International University of Rabat, Morocco
Abstract
Friction stir techniques hold significant value in the field of composite hybridization in a variety of industrial areas. This chapter explores the various uses of friction stir techniques and explains how they can enhance the mechanical, thermal, and structural properties of composite materials. Through careful analysis of the literature and case studies, this chapter examines how friction stir techniques are transforming manufacturing processes in the aerospace, automotive marine, and renewable energy industries. Furthermore, the chapter highlights the unique advantages offered by friction stir techniques including improved joint strength reduced weight, enhanced corrosion resistance, and superior fatigue performance, thus presenting a compelling case for the widespread adoption. The chapter also addresses current research projects and prospective future directions for friction stir technology, emphasizing its potential to drive innovation and sustainability across diverse industrial domains. This exploration not only underscores the immense potential of friction stir techniques but also illuminates the crucial role they play in shaping the future of composite materials across a spectrum of applications.