Additive Manufacturing
Innovations, Advances, and Applications
Herausgeber: Srivatsan, T S; Sudarshan, T S
Additive Manufacturing
Innovations, Advances, and Applications
Herausgeber: Srivatsan, T S; Sudarshan, T S
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This book presents an overview of recent and emerging additive manufacturing (AM) techniques and their applications. It explains several of the processes developed using various materials ranging from metals to plastics, and composites to human tissue. The chapters provide systematic solutions for the selection and design of a process most appro
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This book presents an overview of recent and emerging additive manufacturing (AM) techniques and their applications. It explains several of the processes developed using various materials ranging from metals to plastics, and composites to human tissue. The chapters provide systematic solutions for the selection and design of a process most appro
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 460
- Erscheinungstermin: 18. Dezember 2020
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 794g
- ISBN-13: 9780367737788
- ISBN-10: 0367737787
- Artikelnr.: 69894873
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 460
- Erscheinungstermin: 18. Dezember 2020
- Englisch
- Abmessung: 254mm x 178mm x 24mm
- Gewicht: 794g
- ISBN-13: 9780367737788
- ISBN-10: 0367737787
- Artikelnr.: 69894873
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
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 earned his B.Tech in Metallurgy from the Indian Institute of Technology (Madras), and completed his M.Sc and Ph.D in Materials Engineering Science from Virginia Tech (VA, USA). He is President and CEO of Materials Modification, Inc., which is at the forefront of research, development, and commercialization of advanced materials utilizing novel processing techniques. He is a Fellow of (i) American Society for Materials International; (ii) International Federation for Heat Treatment and Surface Engineering; and (iii) Institute of Materials, Minerals and Mining. He has also produced numerous papers [175+] in journals and edited books [30+].
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.
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.
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.
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.