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1. | EXECUTIVE SUMMARY |
1.1. | Advantages of 3D Printing |
1.2. | Printing processes and material compatibility |
1.3. | Future of 3D printing by application |
1.4. | The Two Value Chains |
1.5. | Revenue from 3D Printing Materials in 2015 |
1.6. | Market Share in 2015 |
1.7. | Forecast by Revenue |
1.8. | Forecast by mass |
2. | INTRODUCTION |
2.1. | 3D Printing is... |
2.2. | Advantages of 3D Printing |
2.3. | The cost of complexity |
2.4. | Drivers |
2.5. | A brief history of 3D printing |
2.6. | Company Start Dates |
2.7. | Fully Digital Work-flow |
3. | OVERVIEW OF 3D PRINTING TECHNOLOGIES |
3.1. | Printing processes and material compatibility |
3.2. | Alternative Naming of Technologies |
3.3. | Summary of Plastic Printing |
3.4. | Summary of Metal Printing |
4. | PHOTOPOLYMERS |
4.1. | Photopolymers |
4.2. | Acrylates vs Epoxies |
4.3. | Applications of 3D Printed Photopolymers |
4.4. | Photopolymers - Key Players |
4.5. | Properties of Commercially Available Photopolymers |
4.6. | Forecast for Photopolymers |
5. | THERMOPLASTIC FILAMENT |
5.1. | Thermoplastic Filament |
5.2. | Available Polymers |
5.3. | Why isn't PP commonly 3D printed? |
5.4. | New fillers for thermoplastic filaments |
5.5. | Elastomeric Filaments |
5.6. | Applications of 3D Printed Thermoplastic Filament |
5.7. | Thermoplastic Filament - Key Players |
5.8. | Thermoplastic Filament - Chemical Suppliers |
5.9. | Properties of Objects 3D Printed from Thermoplastic Filament |
5.10. | Forecast Thermoplastic Filament Sales |
5.11. | Forecast for Photopolymers |
6. | THERMOPLASTIC POWDER |
6.1. | Thermoplastic Powders |
6.2. | Applications of 3D Printed Thermoplastic Powders |
6.3. | Thermoplastic Powders - Key Players |
6.4. | Polymers Offered by Thermoplastic Powders Suppliers |
6.5. | Comparison of two most commonly 3D Printed Thermoplastic Powders |
6.6. | SLS of TPU |
6.7. | Forecast of Thermoplastic Powders |
7. | METAL POWDERS |
7.1. | Metal Powders |
7.2. | 3D Printable Metals |
7.3. | Powder Requirements |
7.4. | Metal Powders - Key Players |
7.5. | Alloys Available from Metal Powder Suppliers |
7.6. | Applications of 3D Printed Metal Powders |
7.7. | Powders for Metal + Binder |
7.8. | Forecast for Metal Powders |
8. | OTHER WAYS TO 3D PRINT METALS |
8.1. | Welding Wire |
8.2. | Sand + Binder |
8.3. | Proto-pasta Metallic PLA Filament |
8.4. | Platinum-based Metallic Glass |
8.5. | Gallium-Indium Alloy |
9. | CERAMICS |
9.1. | SLA |
9.2. | Paste extrusion |
9.3. | Filled Thermoplastic Filaments |
9.4. | Binder Jetting |
9.5. | SLM |
9.6. | Blown Powder |
10. | BIOMATERIALS |
10.1. | Market |
10.2. | Syringe-based bioprinting |
10.3. | Extrusion-based bioprinting |
10.4. | ROKIT - Edison Invivo 3D bioprinter |
10.5. | Organovo |
11. | CONDUCTIVE MATERIALS |
11.1. | Electrically Conducting Materials |
11.2. | Functional materials |
11.3. | Metals |
11.4. | Conductive thermoplastic filaments |
11.5. | Conductive inks |
11.6. | Conductive pastes |
11.7. | Conductive photopolymers |
11.8. | Graphene |
12. | EMERGING MATERIALS |
12.1. | Carbon Fibre |
12.2. | Silicone |
12.3. | Regolith |
12.4. | Wood |
12.5. | Glass |
13. | DISRUPTIVE TECHNOLOGIES |
13.1. | Thermoplastic Recycling |
13.2. | Selective Deposition Lamination |
13.3. | Faster vat photopolymerisation |
13.4. | LCD stereolithography 3D Printing |
14. | MARKETS |
14.1. | Markets for 3D Printing |
14.2. | Future of 3D printing by application |
15. | VALUE CHAINS |
15.1. | Value Network |
15.2. | The Two Value Chains |
15.3. | Value Chain Split |
15.4. | Three Behaviours of Thermoplastic Filament Consumption |
15.5. | Falling prices for free-market materials |
16. | STATE OF THE MARKET |
16.1. | Revenue from 3D Printing Materials in 2015 |
16.2. | Market Share in 2015 |
16.3. | 3D Printing Industry Split by Application |
16.4. | Methods and Assumptions of State of Market Data |
16.5. | Methods and Assumptions of the Forecast |
17. | FORECASTS |
17.1. | Forecast by Revenue |
17.2. | Forecast by mass |
17.3. | Forecasts of Industry Split by Application |
18. | CONCLUSIONS |
18.1. | General trends |
18.2. | Limitations |
18.3. | The evolution of 3D Printing is intrinsically linked with: |
18.4. | Opportunities |
19. | COMPANY PROFILES |
19.1. | Advanc3d Materials |
19.2. | Advanced Powders and Coatings |
19.3. | Arcam |
19.4. | Arevo Labs |
19.5. | Cookson Precious Metals |
19.6. | CRP Group |
19.7. | DSM Somos |
19.8. | Evonik |
19.9. | Exceltec |
19.10. | Formlabs |
19.11. | Graphene 3D Lab |
19.12. | Heraeus - 3D printing metals |
19.13. | Impossible Objects |
19.14. | Legor Group |
19.15. | Lomiko Metals |
19.16. | LPW Technology Ltd |
19.17. | Maker Juice |
19.18. | NanoSteel |
19.19. | Nascent Objects, Inc |
19.20. | NinjaFlex |
19.21. | Norsk Titanium |
19.22. | Oxford Performance Materials |
19.23. | Photocentric |
19.24. | Rahn AG |
19.25. | Sandvik |
19.26. | Stratasys Ltd. |
19.27. | Taulman3D |
19.28. | TLC Korea |
19.29. | Toner Plastics |
Slides | 131 |
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Companies | 29 |
Forecasts to | 2026 |