Cold Spray Additive Manufacturing

This book systematically describes the status quo and future development of cold spray additive manufacturing technology. It starts with a comprehensive introduction to the fundamentals of cold spray additive manufacturing, including its history, working principle, equipment, processing parameters and powder feedstock. It then discusses the fundamentals of and the latest developments in the gas flow character, particle acceleration, particle deposition and bond mechanism from the perspectives of both experiments and modelling to provide readers with insights into the cold spray additive manufacturing process. Further, it explores microstructure and properties, which are major concerns in the context of cold sprayed deposits. The book also highlights the strengthening strategies for cold sprayed deposits, from pre- and in-process to post-treatment. Lastly, it examines the current and potential applications of cold spray additive manufacturing.

Focuses on cold spray additive manufacturing processes rather than cold spray coating Includes chapters on the working principle, fluid dynamics and advanced modeling Discusses the major concerns in the context of cold sprayed deposits

Auteur

Dr. Shuo Yin has been an Assistant Professor at the Department of Mechanical & Manufacturing Engineering, Trinity College Dublin, since January 2019. His current research focuses on additive manufacturing processes, including cold spraying (CS), selective laser melting (SLM) and digital light processing (DLP). He has been actively involved in the field of cold spray processes for more than 10 years. He received his B.E. and Ph.D. from Dalian University of Technology in 2007 and 2013, respectively, and from 2013 to 2015, he worked as a Postdoctoral Researcher at the University of Technology of Belfort Montbeliard in France and Wageningen University in the Netherlands. He was then appointed as a Research Fellow at the Department of Mechanical and Manufacturing Engineering at Trinity College Dublin. In 2017, he was awarded a prestigious Government of Ireland Postdoctoral (GOIPD) Research Fellowship sponsored by the Irish Research Council (IRC). Early this year, he passed the first round review of the most prestigious European research funding, 2020 ERC Starting Grant, and is now waiting for the outcome of the final round review. He has published more than 80 papers in leading peer-reviewed journals, including Progress in Materials Science, Acta Materialia, Scripta Materialia, Additive Manufacturing. Of these, one paper was selected as an ESI hot paper (top 1 ) and one was selected as an ESI highly cited paper (top 1%) by Clarivate. His publications have been cited nearly 1800 times according to "Google Scholar". He is currently severing as guest editor of the "Journal of Thermal Spray Technology" and "Coatings", an editor of "Advances in mathematical physics" and as a reviewer for more than 30 journals.

Rocco Lupoi received his PhD from the University of Bath (UK) in 2008. He has been an Assistant Professor at the Department of Mechanical, Manufacturing and Biomedical Engineering, Trinity College Dublin, since July 2012. His current research focuses on additive manufacturing processes, including cold spraying (CS), selective laser melting (SLM), metallic coatings and laser based processes based upon matter ablation.

Contenu
Chapter 1. Introduction.- Chapter 2. Principles of cold spray additive manufacturing.- Chapter 3. Gas flow and particle acceleration: Experiment.- Chapter 4. Gas flow and particle acceleration: Modelling.- Chapter 5. Particle deposition and bond mechanism: Experiment.- Chapter 6. Particle deposition and bond mechanism: Modelling.- Chapter 7. Microstructures of cold sprayed deposits.- Chapter 8. Mechanical properties of cold sprayed deposits.- Chapter 9. Residual stress in cold sprayed deposits.- Chapter 10. Strengthening strategies for cold sprayed deposits.- Chapter 11. Cold-sprayed metal matrix composites. Chapter 12. Industrial applications.- Chapter 13. Summary and Future Perspectives.