CHARLOTTESVILLE, VA, July 19, 2017 /24-7PressRelease/
-- SmarTech Publishing, the leading industry analyst firm in the 3DP/ additive manufacturing market has issued a new report titled, "Additive Manufacturing for the Drone/UAV Industry
". In this report, the firm projects that the yearly value of AM manufactured parts in the drone industry to reach $1.9 billion, driving over $400 million in yearly sales of AM equipment, software, materials and services.
Further details of this report including a detailed description, table of contents and downloadable excerpt can be found at: https://www.smartechpublishing.com/reports/additive-manufacturing-for-the-drone-uav-industry-an-opportunity-analysis-a
. Members of the press can receive an executive summary and schedule an interview with the report's author, Davide Sher, Senior Industry Analyst at SmarTech.
SmarTech has issued two related subject matter reports titled "Additive Manufacturing for Space Industry Applications: from Earth to Orbit and Beyond
" and "Opportunities for Additive Manufacturing in Aerospace 2017 - Civil Aviation
." Details of the reports can be found at www.smartechpublishing.com
The reports are available individually or as part of a program service that looks at AM in Aerospace and Aviation that includes reports, market and forecast updates and follow on inquiry time.
About the Report:
This report quantifies the projected value of additive manufactured parts and identifies the most commercially important technologies, materials and applications in 3D printing of drone parts for prototyping, production and replacement. The analysis includes ten-year forecasts of the materials, hardware, software and AM services, both in terms of demand and revenues. Granular geographic and part type information completes this first ever accurate study of the potential for AM in the rapidly evolving drone industry, including defense, commercial and consumer applications.
The Drone AM report also provides information on which companies and institutions in the space infrastructure industry are using additive manufacturing today, with relevant case studies. Key firms in the drone AM segment include: DJI, 3DR, Parrot, Hubsan, EHANG, Northrop Grumman, Lockheed Martin, General Atomics, Boeing, Stratasys, 3D Systems, CRP Group, Oxford Performance Materials (OPM), HP, EOS, Ricoh.
The report includes an in-depth analysis of the material used for drone AM protoyping and production, which takes into consideration both high performance polymers and metals as well as composites, ceramics and technologies for direct 3D printing of electronics.
From the Report:
- SmarTech's analysis indicates that the yearly investments in AM technologies, materials software and services will both fuel and be driven by an overall value of additively manufactured drone parts and components set to grow from $60 million in 2016 to $2.2 billion in 2027, a CAGR of 38.7%.
- While the defense drone segment will follow similar guidelines as the general aerospace industry and focus on metal technologies, the commercial drone industry is likely to follow a similar evolutionary trend as the automotive industry, with a greater focus on prototyping and, eventually, on the use of production-grade polymer technologies.
- Polymer extrusion and polymer powder bed fusion are expected to be the most widely adopted technologies in the drone industry because they are the only ones fit for end part production as well as rapid prototyping activities.
- Civil drone manufacturing is a highly fragmented area. Although several commercial drones are sold in the US and Europe, the presence of a very high number of Chinese based manufacturers indicates that most manufacturing will continue to take place in China.
Since 2013 we have published reports on important business opportunities in 3D printing/additive manufacturing sector. SmarTech is the leading industry analyst firm providing coverage in this sector. Our client roster includes the largest 3D printer firms, materials firms and investors.
To Purchase or Enquire about this Report: