Polymers for 3D Printing
portes grátis
Polymers for 3D Printing
Methods, Properties, and Characteristics
Izdebska-Podsiadly, Joanna
William Andrew Publishing
06/2022
408
Dura
Inglês
9780128183113
15 a 20 dias
450
Descrição não disponível.
I Introduction to 3D printing 1. History of the development of additive polymer technologies 2. The concept of 3D printing 3. Classification of 3D printing methods 4. Materials for 3D printing 5. Application of 3D printing
II 3D Printing methods 6. Vat photopolymerization 7. Material extrusion 8. Material jetting 9. Powder bed fusion 10. Binder jetting 11. Sheet lamination 12. Direct energy deposition
III Polymers used in 3D printing e properties and attributes 13. Photopolymers for 3D printing 14. Polymers in printing filaments 15. Polymer powders 16. Plastic pellets 17. Films for sheet lamination 18. Polymers for 3D bioprinting
IV Polymer market in 3D printing 19. Global market structure 20. 3D printing trends and perspectives
II 3D Printing methods 6. Vat photopolymerization 7. Material extrusion 8. Material jetting 9. Powder bed fusion 10. Binder jetting 11. Sheet lamination 12. Direct energy deposition
III Polymers used in 3D printing e properties and attributes 13. Photopolymers for 3D printing 14. Polymers in printing filaments 15. Polymer powders 16. Plastic pellets 17. Films for sheet lamination 18. Polymers for 3D bioprinting
IV Polymer market in 3D printing 19. Global market structure 20. 3D printing trends and perspectives
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3D; 3D CAD model; 3D laser cladding; 3D object; 3D print settings; 3D printed parts; 3D Printing; 3D printing; 3D printing software; 3DP; Additive manufacturing; Aerospace; AM materials; AM process Categories; AM processes; Automotive; Binder Jetting; Binder jetting; Biocompatible materials; Ceramics; Classification of AM process; Commodity polymers; Composites; Definition; Design; Development; Digital light processing; Direct energy deposition; Direct light fabrication; Engineering polymers; Extrusion; FDM; Filament; Filaments; Films; Foils; Fuse deposition modeling; High-performance polymers; History; Hobby; Industrial application; Inkjet powder printing; Laser metal printing; Laser technologies; Material extrusion; Material jetting; Mechanical properties; Mechanical strength; Medical application; Metals; Modeling; Multi Jet Printing
I Introduction to 3D printing 1. History of the development of additive polymer technologies 2. The concept of 3D printing 3. Classification of 3D printing methods 4. Materials for 3D printing 5. Application of 3D printing
II 3D Printing methods 6. Vat photopolymerization 7. Material extrusion 8. Material jetting 9. Powder bed fusion 10. Binder jetting 11. Sheet lamination 12. Direct energy deposition
III Polymers used in 3D printing e properties and attributes 13. Photopolymers for 3D printing 14. Polymers in printing filaments 15. Polymer powders 16. Plastic pellets 17. Films for sheet lamination 18. Polymers for 3D bioprinting
IV Polymer market in 3D printing 19. Global market structure 20. 3D printing trends and perspectives
II 3D Printing methods 6. Vat photopolymerization 7. Material extrusion 8. Material jetting 9. Powder bed fusion 10. Binder jetting 11. Sheet lamination 12. Direct energy deposition
III Polymers used in 3D printing e properties and attributes 13. Photopolymers for 3D printing 14. Polymers in printing filaments 15. Polymer powders 16. Plastic pellets 17. Films for sheet lamination 18. Polymers for 3D bioprinting
IV Polymer market in 3D printing 19. Global market structure 20. 3D printing trends and perspectives
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
3D; 3D CAD model; 3D laser cladding; 3D object; 3D print settings; 3D printed parts; 3D Printing; 3D printing; 3D printing software; 3DP; Additive manufacturing; Aerospace; AM materials; AM process Categories; AM processes; Automotive; Binder Jetting; Binder jetting; Biocompatible materials; Ceramics; Classification of AM process; Commodity polymers; Composites; Definition; Design; Development; Digital light processing; Direct energy deposition; Direct light fabrication; Engineering polymers; Extrusion; FDM; Filament; Filaments; Films; Foils; Fuse deposition modeling; High-performance polymers; History; Hobby; Industrial application; Inkjet powder printing; Laser metal printing; Laser technologies; Material extrusion; Material jetting; Mechanical properties; Mechanical strength; Medical application; Metals; Modeling; Multi Jet Printing