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Concept to Production—Future of Additive Manufacturing
Concept to Production—Future of Additive Manufacturing
Tracing the Evolution of Additive Manufacturing and Evaluating its Impact on the Connected Supply Chain of the Future
RELEASE DATE
03-May-2016
03-May-2016
REGION
Global
Global
Research Code: MB74-01-00-00-00
SKU: IA1286-GL-MR_18474
$4,950.00
Special Price $3,712.50 save 25 %
In stock
SKU
IA1286-GL-MR_18474
Description
This Frost & Sullivan research service on the future of additive manufacturing evaluates the evolution of additive manufacturing across multiple regions and industry verticals. It brings out the implications of the IIoT-based connected supply chain due to the adoption of additive manufacturing in actual production. The study provides the all-important growth strategies that need to be adopted by solution providers to achieve sustainable growth in the additive manufacturing market. It also analyses the different options in organic and inorganic growth strategies. Frost & Sullivan's expert analysts have also shortlisted some of lucrative future business models in the additive manufacture space.
RESEARCH: INFOGRAPHIC
This infographic presents a brief overview of the research, and highlights the key topics discussed in it.Click image to view it in full size
Table of Contents
Key Findings
The 4 Functional Facets
- Industry Convergence: IT-OT
- Services 2.0
- Supply Chain Evolution
- The Industry 4.0
- Business Ecosystem
Frost & Sullivan’s Offering
Research Scope and Objective
3D Printing—The Broad Outlook
3D Printing—The Process Flow Exhibit
Technology Classification
State of Today’s 3D Printing Industry
Commoditisation in the 3D Printing Industry
Advanced 3D Printing Value Chain
Conventional vs Additive Manufacturing Supply Chain
Regional Additive Manufacturing Market
Comparative Analysis of 3D Printing Technologies
Strong Support for 3D Printing within the APAC Region
3D Printing Market Potential
3D Printing Across Industry Verticals
3D Printing in the Automotive Industry
The Shift in Applications
A Print, Assemble, Drive Scenario?
Aerospace Industry Moving Towards Actual Production Through Additive Manufacturing
3D Printing in Medical Devices and Consumer Electronics
Strategies to Acquire Advanced Additive Manufacturing Capabilities to Achieve Sustainable Growth
Organic vs Inorganic Growth
Inorganic Growth Opportunities
Strategic Explanation
Case Example: Strategic Application in the Automotive Industry
Additive Manufacturing Market Entry Recommendations
Lucrative Business Models
3D Systems
Stratasys
Arcam (Sweden)
The ExOne Company (USA)
Linear Mold & Engineering (USA)
Poly-Shape (France)
3T RPD (UK)
FIT Technology Group (Germany)
The Last Word: What's Next?—3 Big Predictions
Abbreviations Used
The Frost & Sullivan Story- The Journey to Visionary Innovation
List of Figures- 1. Future of Additive Manufacturing: Process Flow Exhibit, Global, 2015
- 2. Future of Additive Manufacturing: Technologies Used, Global, 2015
- 3. Future of Additive Manufacturing: Global 3D Printing Footprint, Global, 2015
- 4. Future of Additive Manufacturing: Commoditisation Scenarios and Impact on 3D Printing, Global, 2015
- 5. Future of Additive Manufacturing: Advanced Value Chain Analysis, Global, 2015
- 6. Future of Additive Manufacturing: Conventional vs Additive Manufacturing Supply Chain, Global, 2015
- 7. Future of Additive Manufacturing: Schematic of Revenue Generation in Regions, Global, 2015–2025
- 8. Future of Additive Manufacturing: Comparative Analysis of Major 3D Printing Technologies, Global, 2015
- 9. Future of Additive Manufacturing: Market Share Percent of Key Countries, Global, 2015
- 10. Future of Additive Manufacturing: Labour Cost Advantage, APAC, 2015
- 11. Future of Additive Manufacturing: Governmental Initiatives, China, 2015
- 12. Future of Additive Manufacturing: Governmental Support and University Initiatives, Singapore, 2015
- 13. Future of Additive Manufacturing: New Technologies Developed for both High Volume and Low Cost Markets, APAC, 2015
- 14. Future of Additive Manufacturing: Schematic of Revenue Generation in Manufacturing Sectors, Global, 2015–2025
- 15. Future of Additive Manufacturing: Schematic Adoption Rate of 3D Printing Across Industry Verticals, Global, 2015–2025
- 16. Future of Additive Manufacturing: Evolution of Additive Manufacturing Trends, Global, 2015
- 17. Future of Additive Manufacturing: Application Developments in the Automotive Industry, Global, 2015
- 18. Future of Additive Manufacturing: Automotive Applications, Global, 2015
- 19. Future of Additive Manufacturing: Additive Manufacturing in Aerospace and Defence, Global, 2015
- 20. Future of Additive Manufacturing: Additive Manufacturing in Medical Devices and Consumer Electronics Industries, Global, 2015
- 21. Future of Additive Manufacturing: Organic vs Inorganic Growth Strategy Options, Global, 2015
- 22. Future of Additive Manufacturing: Inorganic Growth Business Models, Global, 2015
Popular Topics
This Frost & Sullivan research service on the future of additive manufacturing evaluates the evolution of additive manufacturing across multiple regions and industry verticals. It brings out the implications of the IIoT-based connected supply chain due to the adoption of additive manufacturing in actual production. The study provides the all-important growth strategies that need to be adopted by solution providers to achieve sustainable growth in the additive manufacturing market. It also analyses the different options in organic and inorganic growth strategies. Frost & Sullivan's expert analysts have also shortlisted some of lucrative future business models in the additive manufacture space.
| No Index | No |
|---|---|
| Podcast | No |
| Table of Contents | | Executive Summary~ || Key Findings~ | Internet of Industrial Things—A Research Perspective~ || The 4 Functional Facets~ ||| Industry Convergence: IT-OT~ ||| Services 2.0~ ||| Supply Chain Evolution~ ||| The Industry 4.0~ ||| Business Ecosystem~ || Frost & Sullivan’s Offering~ || Research Scope and Objective~ | Overview of Additive Manufacturing~ || 3D Printing—The Broad Outlook~ || 3D Printing—The Process Flow Exhibit~ || Technology Classification~ || State of Today’s 3D Printing Industry~ || Commoditisation in the 3D Printing Industry~ || Advanced 3D Printing Value Chain~ || Conventional vs Additive Manufacturing Supply Chain~ | Opportunities Across Regions and Industry Verticals~ || Regional Additive Manufacturing Market~ || Comparative Analysis of 3D Printing Technologies~ || Strong Support for 3D Printing within the APAC Region~ || 3D Printing Market Potential~ || 3D Printing Across Industry Verticals~ || 3D Printing in the Automotive Industry~ || The Shift in Applications~ || A Print, Assemble, Drive Scenario?~ || Aerospace Industry Moving Towards Actual Production Through Additive Manufacturing~ || 3D Printing in Medical Devices and Consumer Electronics~ | Future of Additive Manufacturing—Growth Strategies~ || Strategies to Acquire Advanced Additive Manufacturing Capabilities to Achieve Sustainable Growth~ || Organic vs Inorganic Growth~ || Inorganic Growth Opportunities~ || Strategic Explanation~ || Case Example: Strategic Application in the Automotive Industry~ || Additive Manufacturing Market Entry Recommendations~ || Lucrative Business Models~ | Company Profiles~ || 3D Systems~ || Stratasys~ || Arcam (Sweden)~ || The ExOne Company (USA)~ || Linear Mold & Engineering (USA)~ || Poly-Shape (France)~ || 3T RPD (UK)~ || FIT Technology Group (Germany)~ | Conclusion~ || The Last Word: What's Next?—3 Big Predictions~ | Legal Disclaimer~ | Appendix~ || Abbreviations Used~ || The Frost & Sullivan Story- The Journey to Visionary Innovation~ |
| List of Charts and Figures | 1. Future of Additive Manufacturing: Process Flow Exhibit, Global, 2015~ 2. Future of Additive Manufacturing: Technologies Used, Global, 2015~ 3. Future of Additive Manufacturing: Global 3D Printing Footprint, Global, 2015~ 4. Future of Additive Manufacturing: Commoditisation Scenarios and Impact on 3D Printing, Global, 2015~ 5. Future of Additive Manufacturing: Advanced Value Chain Analysis, Global, 2015~ 6. Future of Additive Manufacturing: Conventional vs Additive Manufacturing Supply Chain, Global, 2015~ 7. Future of Additive Manufacturing: Schematic of Revenue Generation in Regions, Global, 2015–2025~ 8. Future of Additive Manufacturing: Comparative Analysis of Major 3D Printing Technologies, Global, 2015~ 9. Future of Additive Manufacturing: Market Share Percent of Key Countries, Global, 2015~ 10. Future of Additive Manufacturing: Labour Cost Advantage, APAC, 2015~ 11. Future of Additive Manufacturing: Governmental Initiatives, China, 2015~ 12. Future of Additive Manufacturing: Governmental Support and University Initiatives, Singapore, 2015~ 13. Future of Additive Manufacturing: New Technologies Developed for both High Volume and Low Cost Markets, APAC, 2015~ 14. Future of Additive Manufacturing: Schematic of Revenue Generation in Manufacturing Sectors, Global, 2015–2025~ 15. Future of Additive Manufacturing: Schematic Adoption Rate of 3D Printing Across Industry Verticals, Global, 2015–2025~ 16. Future of Additive Manufacturing: Evolution of Additive Manufacturing Trends, Global, 2015~ 17. Future of Additive Manufacturing: Application Developments in the Automotive Industry, Global, 2015~ 18. Future of Additive Manufacturing: Automotive Applications, Global, 2015~ 19. Future of Additive Manufacturing: Additive Manufacturing in Aerospace and Defence, Global, 2015~ 20. Future of Additive Manufacturing: Additive Manufacturing in Medical Devices and Consumer Electronics Industries, Global, 2015~ 21. Future of Additive Manufacturing: Organic vs Inorganic Growth Strategy Options, Global, 2015~ 22. Future of Additive Manufacturing: Inorganic Growth Business Models, Global, 2015~ |
| Author | Srikanth Shivasamy |
| Industries | Industrial Automation |
| WIP Number | MB74-01-00-00-00 |
| Is Prebook | No |