Description
Additive Manufacturing
Innovations, Advances, and Applications
Coordinators: Srivatsan T.S., Sudarshan T.S.
Language: EnglishSubjects for Additive Manufacturing:
Keywords
Lead Free Solder; Powder Bed Fusion; additive manufacturing; Melt Pool; 3D printing; Melt Track; additive process; Laser Deposition Process; rapid prototyping; Selective Laser Melting; rapid manufacturing; EBM; fused deposition modeling; AM; Additive Manufacturing (AM); DMLS; Laser Additive Manufactured; Build Height; Preheated Powder; Electron Beam; SLM Process; Computer-Aided Design (CAD); Energy Density; Stereolithography (STL); Powder Bed; Additive Fabrication; Surgical Guides; Additive Processes; Residual Stresses; Additive Techniques; Gas Permeable Material; Additive Layer Manufacturing; Hatch Distance; Freeform Fabrication; CT Number; America Makes; Melt Pool Temperature; National Additive Manufacturing Innovation Institute (NAMII); Laser Remelting; Air Force Research Laboratory (AFRL); Soldering Iron; National Aeronautics and Space Administration (NASA); Melt Boundary; Rapid prototyping (RP); Fused deposition modeling (FDM); Laminated object manufacturing (LOM); Selective laser sintering (SLS); Laminated engineering net shaping (LENS); Electron beam melting (EBM); ProMetal; PolyJet; Selective Laser Melting (SLM)
Publication date: 12-2020
· 17.8x25.4 cm · Paperback
Publication date: 10-2015
· 17.8x25.4 cm · Hardback
Description
/li>Contents
/li>Biography
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Get Ready for the Future of Additive Manufacturing
Additive Manufacturing: Innovations, Advances, and Applications explores the emerging field of additive manufacturing (AM)?the use of 3D printing to make prototype parts on demand. Often referred to as the third industrial revolution, AM offers many advantages over traditional manufacturing. This process enables users to quickly build three-dimensional objects from the bottom-up, adding material one cross-sectional layer at a time directly from a computer model. This book provides a clear overview of specific technologies related to AM. It covers existing and emerging techniques in AM in use for a wide spectrum of manufacturing applications, and highlights the advantages of each technique with specific references to technological applications.
Introduces Valuable Processes for Making Prototype Parts among Manufacturers of Many Types
The book outlines many of the processes developed using various materials ranging from metals to plastics, and composites to human tissue. It presents recent innovations and potential viable applications that include: near-net shape capabilities, superior design, geometric flexibility, innovations in fabrication using multiple materials, and reduced tooling and fixturing. It also introduces several illustrations and case studies that focus on the present and far-reaching applications, developments, and future prospects of AM technologies.
Written by renowned experts in their fields, this book:
- Covers the reactive inkjet printing of nylon materials relevant to AM
- Discusses the AM of metals using the techniques of free space deposition and selective laser melting
- Provides a comparison between AM materials and human tissues
- Addresses the use of AM for medical devices and drug and cell delivery
- Focuses on the relevance of AM to rare earth magnets and more
Additive Manufacturing: Innovations, Advances, and Applications emphasizes the use of AM commensurate with advances in technical applications, and provides a solid background on the fundamentals and principles of this rapidly developing field.
Additive Manufacturing of Materials: Viable Techniques, Metals, Advances, Advantages, and Applications. Additive Manufacturing Using Free Space Deposition in Metals: Experiment and Theory.Additive Manufacturing of Metals Via Selective Laser Melting: Process Aspects and Material Developments.Projection Microstereolithography as a Micro-Additive Manufacturing Technology: Processes, Materials, and Applications.Printed and Hybrid Electronics Enabled by Digital Additive Manufacturing Technologies.Application of Radiometry in Laser Powder Deposition Additive Manufacturing.Powder and Part Characterizations in Electron Beam Melting Additive Manufacturing.Simulation of Powder-Based Additive Manufacturing Processes.Advances in Additive Manufacturing: Effect of Process Parameters on Microstructure and Properties of Laser-Deposited Materials.Integration of Gas-Permeable Structures in Laser Additive Manufactured Products.Additive Manufacturing of Components from Engineering Ceramics.Reactive Inkjet Printing of Nylon Materials for Additive Manufacturing Applications.Comparison of Additive Manufacturing Materials and Human Tissues in Computed Tomography Scanning.Additive Manufacturing of Medical Devices.Medical Applications of Additive Manufacturing.Additive Manufacturing of Pluronic/Alginate Composite Thermogels for Drug and Cell Delivery.Additive Manufacturing of Rare Earth Permanent Magnets.
T.S. Srivatsan, Professor of Materials Science & Engineering in the Department of Mechanical Engineering at The University of Akron (OH, USA), earned his M.S. in Aerospace Engineering in 1981 and his Ph.D in Mechanical Engineering in 1984 from Georgia Institute of Technology (USA). Dr. Srivatsan joined the Department of Mechanical Engineering faculty at The University of Akron in 1987. He has authored or edited 57 books, delivered over 200 technical presentations, and authored or co-authored more than 700 archival publications in journals, book chapters, book reviews, proceedings of conferences, and technical reports. He is a Fellow of (i) American Society for Materials International; (ii) American Society of Mechanical Engineers, and (iii) American Association for Advancement of Science.
T.S. Sudarshan