The text focuses on discussing the solid-state deformation behavior of materials in additive manufacturing processes. It highlights the process optimization and bonding of different layers during layer-by-layer deposition of different materials in Solid-State. It covers the design, process, and advancement of solid-state additive manufacturing methods.
Covers the fundamentals of materials processing, including the stress–strain–temperature correlation in solid-state processing and manufacturing
Discusses solid-state additive manufacturing methods, and optimization strategies for the fabrication of additive manufacturing products
Showcases the mechanisms associated with improvement in mechanical properties of Solid-State additive manufacturing products
Provides a comprehensive discussion on microstructural stability and homogeneity in mechanical properties
Presents hybrid solid-state process for fabrication of multilayer components and composite materials
Provides a detailed review of laser-based post-processing techniques
The text focuses on the Solid-State additive manufacturing techniques for the fabrication of industrially relevant products. It gives in-depth information on the fundamental aspects, hybridization of the processes, fabrication of different materials, improvement in product performance, and Internet of Things enabled manufacturing. The text covers crucial topics, including hybrid Solid-State additive manufacturing, cold spray additive manufacturing, online defect detection of products, and post-processing of additively manufactured components. These subjects are significant in advancing additive manufacturing technology and ensuring the quality and efficiency of the produced components. It will serve as an ideal reference text for senior undergraduate and graduate students, and researchers in fields such as mechanical engineering, aerospace engineering, manufacturing engineering, and production engineering.