Rapid proliferation of three-dimensional (3D) printing technology in the industrial arena has attracted manufacturers and consumers to adopt the technology widely. Also awareness of the technology has led to the innovative option of merging additive and subtractive additive manufacturing techniques.
The hybrid manufacturing technique or system often comprises direct energy deposition, powder bed fusion and milling techniques.
Addition of milling option to additive manufacturing provides high quality products with improved surface finish, thus resulting in improvised solutions for design engineers. The technical attributes of hybrid manufacturing overhaul existing conventional techniques and have created footprint in sectors such as oil and gas, aerospace, and automotive.
Business models are also evolving toward leasing of machinery, providing hybrid systems as a service in the manufacturing arena. This will increase the bandwidth of industries that the hybrid manufacturing systems service.
Aerospace is one of the major industries impacted by the introduction of hybrid 3D printers. The technology is expected to improve tolerances, geometrics, and surface areas. 3D printing itself can enable production of lightweight components. 3D printed metal parts can reduce the weight of an airplane by about 7%.
The technology and innovation report assesses opportunities for hybrid manufacturing systems, and provides insights on technology development scenario for the near-, medium-, and long-term. Growth opportunities for hybrid systems in different applications are also assessed.
The technology and innovation report addresses the following questions:
a)What is the significance and attractiveness of hybrid manufacturing technology?
b)What are the key factors influencing adoption of hybrid systems over conventional techniques?
c)What are the market potential and key trends impacting opportunities?
d)How does research and patent scenario impact development?
e)Who are the major companies working in hybrid manufacturing and what is the impact of their development?
f)What will be the technology development scenario in the near-, medium-, and long- term and related growth opportunities?
1.0 Executive Summary
1.1 Research Scope
1.2 Research Methodology
1.3 Research Methodology Explained
1.4 Key Findings
2.0 Technology Landscape Assessment
2.1 Industrial Scenario
2.2 Technology Attractiveness
2.3 Benchmarking of Hybrid Manufacturing with Conventional Techniques
2.5 Significance in Adoption of Hybrid Manufacturing
2.5 Advantages of Hybrid Manufacturing Technology
2.6 Precise and Cost-effective Production Process
2.7 Value Chain: Hybrid Manufacturing System
2.8 Key Triggering Initiatives Related to Developments in HM Technology
3.0 Patent and Funding Analysis
3.1 Increasing Global Patent Trend Over the Past Years
3.2 China Leads in Patent Publication
3.3 Increasing Funding Initiatives by European Government
3.4 Key Technologies to Watch out for in the Medium Term
4.0 Market Potential
4.1 Market Disruptiveness and Related Factors
4.2 Growth in Hybrid Systems Rises with Evolving 3D printing Technologies
4.3 Technology Adoption Factors
4.4 Representative Growth Sector
4.5 Technical and Adoption Challenges
4.6 Challenges in Integration of Multiple Processes
5.0 Technology Forecast and Growth Opportunities
5.1 Ten Year Forecast for the Future of Hybrid Manufacturing
5.2 Emerging Applications Roadmap – Forecast for the Next 10 Years
5.3 Strategic Directions: What should Stakeholders Do to Remain Competitive?
5.4 Key Companies to Watch Out for in the Medium Term
5.5 Key Companies in the Hybrid Manufacturing Market
5.6 From the Analyst’s Desk
5.7 Opportunity Strategy Evaluation (OSE) Grid
5.8 Key Impact Sectors of Hybrid Manufacturing Technology
5.9 Oil and Gas Embraces Integrated Solutions
6.0 Key Contacts
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