Additive Manufacturing

Additive Manufacturing

Riveiro, Antonio; Pou, Juan; Davim, J. Paulo; Davim, J. Paulo

Elsevier Science Publishing Co Inc

05/2021

768

Mole

Inglês

9780128184110

15 a 20 dias

1220

Descrição não disponível.
1. Introduction to Additive Manufacturing 2. Introduction to Powder Bed Fusion of Polymers 3. Selective Laser Melting: Principles and Surface Quality 4. Laser Directed Energy Deposition. Principles and Applications 5. Vat Photopolymerization Methods in Additive Manufacturing 6. Polymer and Composites Additive Manufacturing: Material Extrusion Processes 7. Introduction to Fused Deposition Modeling 8. Electron Beam Melting Process: A General Overview 9. Introduction to 4D Printing: Methodologies and Materials 10. Laser polishing of Additively Manufactured parts 11. On Surface Quality of Engineered Parts Manufactured by Additive Manufacturing and Post Finishing by Machining 12. Standards for Additive Manufacturing Technologies: Structure and Impact 13. Metal Matrix Composites Processed by Laser Additive Manufacturing: Microstructure and Properties 14. Laser Aided Metal Additive Manufacturing and Post Processing: A Comprehensive Review 15. Nano-functionalized 3D Printing 16. Additive Manufacturing for the Automotive Industry 17. Additive Manufacturing of Large Parts 18. 3D printing of Pharmaceutical Products 19. 3D Bioprinting: A Step Forward in Creating Engineered Human Tissues and Organs 20. Additive Processing of Biopolymers for Medical Applications 21. Additive Manufacturing using Space Resources 22. Modelling and Simulation of Additive Manufacturing Processes with Metallic Powders - Potentials and Limitations Demonstrated on Application Examples
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3D printing nanobiomaterials; 3D printing; 3Dprinting; 4D printing; Additive manufacturing (AM)Directed energy deposition (DED)Lasers; Additive manufacturing; Advanced material; AM process control; AM; AMF; Asteroid regolith; Automotive; Beam deposition; Biomedical; Biopolymers; Bioprinting; CEN Committee; Composites; Conductive materials; Continuous liquid interface production; Deposition; Digital light processing; Economy; Electron beam machining; FDM; FFF; Finishing; Finite element analysis (FEA)Laser metal deposition (LMD)Selective laser melting (SLM)Shape distortion computation; Functionally graded materials; Fused deposition modeling; Fused filament fabrication; Heat treatment; High-speed sintering; HotEnd; Human organ; Human tissue; Hybrid manufacturing; Implant; In situ resource utilization; Industrial; Interfacial reaction; ISO/ASTM joint Groups; Large format additive manufacturing (LFAM)Material extrusion; Laser additive manufacturing; Laser cladding; Laser polishing; Laser powder bed fusion; Laser sintering; Laser; Laser-directed energy deposition; Lunar regolith; Machining; Martian regolith; Materials; Medical applications; Medicine; Microscopy; Microstructure; Multi Jet Fusion; Nanocomposites; Ni alloys; Pharmaceutical; Planetary manufacturing; Plastics; Post-processes; Postprocessing; Powder bed fusion; Precipitation; Printability; Printlet; Process monitoring; Process; Quality; Reactive extrusion; Repair; RepRap; Reverse engineering; Selective laser melting (SLM)Selective laser melting; Shape programming; Shape shifting; Smart manufacturing; Smart material; Smart structures; Soft tooling; Space resources; Standards; Stereolithography; Surface integrity; Surface modification; Surface quality; Surface roughness; Techniques; Test procedure; Thermal analysis; Thermoplastics; Thermoset; Ti alloys; Tribology; Vat photopolymerization