Systematic study of preparation technology, microstructure characteristics and mechanical behaviors for SiC particle-reinforced metal matrix composites

his article provides a review of the research progress on SiC particle-reinforced metal matrix composites (MMCs), which are a novel type of structural material known for their high strength, hardness, and thermal stability. The potential applications of these composites in aerospace, automobiles, electronics, and specialized mechanical equipment are discussed. The article covers the preparation technology, microstructure, mechanical properties, wear resistance, and application of SiC particle-reinforced MMCs. The advantages, disadvantages, and applicability of different methods are compared. Furthermore, this study explores the relationship between the mechanical properties and microstructure of SiC particle-reinforced MMCs. It also examines the influence of interfacial reactions on the macroscopic properties of these materials. Finally, this article summarizes the application of SiC particle-reinforced MMCs in aerospace, automotive, electronics, and other industries. It also discusses the possible future development directions of these materials. These research results serve as a valuable reference for future research and application of SiC particle-reinforced MMCs. Furthermore, they contribute to the advancement of MMC research and development by offering innovative design concepts and research methodologies to create high-quality structural composite materials. Additionally, this research may inspire the proposal of new manufacturing methods to produce composites with enhanced overall performance in the future.