CHARLOTTESVILLE, Virginia: In its new study, “ Titanium Opportunities in Additive Manufacturing,” SmarTech Markets Publishing projects revenues for titanium powders used in additive manufacturing to reach more than $330 million, corresponding to 730,500 Kgs of titanium. Titanium is becoming the highest revenue generating opportunity in additive manufacturing (AM) metals, both because of its rapid growth and its relatively high average price.
More information on this report at: https://www.smartechpublishing.com/reports/titanium-opportunities-in-additive-manufacturing/ along with a table of contents and report extract. This report is the latest in SmarTech’s series of market analysis reports on AM materials.
About the Report:
Titanium is increasingly sought after in AM for its high strength to weight ratio, biological inertness, and other desirable properties. This report provides ten-year forecasts – in US$ Millions and Kilograms – for titanium in the following sectors, aerospace, automotive, jewelry, dental, medical, service bureaus, and ‘other adopting industries’. Other applications discussed include heavy equipment, marine, energy, and consumer products. SmarTech’s projections also provide breakouts by Ti6Al4V and other titanium alloys.
This report also profiles titanium-related product/market strategies of leading firms discussed include: 3D Systems, Arcam, Concept Laser, EOS, ExOne, Farsoon
Fonon, GE, GKN Hoeganaes, Honeywell, i.Materialise, LPW, Matsuura, Metalysis, Optomec, Oxford Performance Materials, Phenix, Ping, Praxair, Puris, Realizer,
Renishaw, Sisma, SLM Solutions, Tekna, and Xi’an Brightlaser
Highlights from the Report:
AM titanium will continue to be used where premium performance is required. In the short term, the supply chain for AM titanium powder will continue to be controlled by smaller specialty providers –but larger global metal firms are now beginning to jump in. These firms have historically sold to metal AM system vendors, however today several very large users of metal AM in aerospace and medical are ordering in volumes large enough to sustain smaller powder providers.
The vast majority of titanium powder used in current additive manufacturing systems falls into two types—Ti6Al4V (Ti64) and commercially pure titanium (CPT).
Increased use of specialty titanium alloys is expected to vary depending on adopting industry.
Titanium is being explored for smaller structures in aircraft engines such as brackets and housings, but may expand into much larger structural components to drive demand. By 2020, aerospace will be consuming almost 155,000 Kgs of titanium. Most available specialty Titanium alloys today have been developed primarily with aerospace in mind.
Titanium also has good prospects in medical markets due to bio-inertness, and ‘as manufactured’ bone ingrowth performance. It also is capable of outperforming heavier alloys with its strength to weight ratio. Current production of titanium orthopedic implants using AM is growing rapidly across the board, with new products in spine, hip, knee, and other orthopedic areas. Medical applications of AM titanium will account for around 274,000 Kg of Titanium in 2020 thanks to this growth.
SmarTech Markets Publishing is the leading provider of industry analysis for the 3D printing/additive manufacturing sector.
See more: www.smartechpublishing.com