Powder Metallurgy: Characterization, Processing, and Optimization Techniques explores the evolving role of powder metallurgy in producing parts for various applications. This comprehensive text focuses on the tribological performances of powder metallurgy materials. It delves into processes such as sintering, electrolytic methods, atomization techniques, cold compaction, and cold isostatic pressing, alongside techniques for measurement, testing, and characterization. Moreover, the book covers sustainability in powder metallurgy and the use of artificial intelligence for modeling and optimizing the process. Applications span across aerospace, defense, automotive, consumer products, industrial products, and more.
- Discusses various powder metallurgy industry applications in areas such as aerospace, defense, automotive, consumer products, industrial products, and more
- Focuses on the effect of critical process parameters on the microstructure and mechanical properties of the resulting part
- Includes discussions on titanium, aluminum, iron- and nickel-based alloys, Inconel 718, and more
- Covers sustainability, automation, and optimization of powder metallurgy processes
- Outlines measurement, testing, and characterization techniques of powder particles
Explore Powder Metallurgy by Sachin Salunkhe, M Arun Prasad & J. Paulo Davim on eBooksStore by Arnlweb. Discover book details, reader ratings, reviews, release information, genres, and related digital books available through the iTunes Store.
This book is part of our growing collection of bestselling eBooks, popular digital reading materials, and trending author releases. Readers can explore similar books, discover new authors, and browse related genres including fiction, romance, mystery, fantasy, business, self-help, educational books, and more.
Our platform helps readers discover highly rated digital books optimized for smartphones, tablets, laptops, and desktop devices. Browse fast-loading book pages, reader reviews, and popular recommendations from bestselling authors worldwide.