By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
With titanium powder metallurgy (P/M), it’s possible to produce net- or nearly-net-shaped parts without incurring the material costs and losses that come with having to manufacture complex pieces from wrought billet.
Powders may be created using the blended elemental method or by pre-alloying, which is followed by consolidation techniques including metal injection moulding, hot isostatic pressing, direct powder rolling, or laser-engineered net shaping.
For many years, titanium powder has been utilised as an alloying additive.
Recent developments in the production and application of titanium powder have opened doors in a variety of industries, including powder metallurgy, additive manufacturing, thermal spray, laser cladding, metal injection moulding, and laser cladding.
The Global titanium powder market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The increase in demand from a variety of industries, including aerospace and automotive production, is primarily responsible for the growth of the global titanium powder market.
For many applications, titanium powder is utilised as an alloying additive. Recent developments in the manufacturing and usage of titanium powder have created new potential for metal injection moulding and powder metallurgy.
Additionally, the titanium market has growing potential due to the global expansion in production and high demand for automobiles and automotive parts.
However, substantial barriers to industry expansion include high manufacturing costs for titanium powder and a lack of funding for R&D. In the global titanium powder sector, there are numerous small and major producing enterprises.
The product type and application are the two market segments used to divide the global titanium powder market. High purity titanium powder (CPTP) and alloyed titanium powder are the two product categories that make up the titanium powder market (ATP).
According to the application, the titanium powder market is divided into the automotive, petrochemical, aerospace, and other industries.
Titanium powders for Metal AM have been launched by Höganäs. Höganäs explains that titanium has the highest strength-to-weight ratio of any metal that is now understood, making it perfect for a range of uses, from lightweight aerospace parts to vehicle components.
It is ideal for bespoke medical implants because it is also very resistant to corrosion and has great biocompatibility qualities.
Designed for maximum performance and material efficiency, Höganäs’ forAM titanium-based alloys for additive manufacturing. Ti6Al4V (available in grade 5 and grade 23) and CP-Ti (commercially pure titanium) are two of the grades that are readily available.
These materials are useful for a variety of components across numerous sectors and have good material qualities.
Iperion X, a provider of environmentally friendly titanium technologies, and SLM Solutions, a leading global provider of metal additive manufacturing (AM) systems, have signed a non-binding memorandum of understanding (MOU) for the potential supply of spherical titanium metal powders from IperionX’s planned Titanium Demonstration Facility (TDF) in Virginia to SLM.
SLM is a global supplier of metal 3D printing solutions, providing its clients with a global installed base of more than 850 equipment and 1,400 lasers.
It pioneered selective laser melting and the laser powder bed fusion (LPBF) AM modality for metal AM using metal powders.
This MOU with two top metal AM technology companies is rumoured to be able to provide SLM’s large international client base with the first titanium metal powders that are 100 percent recycled.
According to Iperion X, their titanium technologies enable the synthesis of premium titanium powders from 100 percent recycled titanium feedstocks and dramatically lessen titanium’s carbon footprint and environmental impact.
IperionX purchased two SLM additive manufacturing systems (SLM 125 and SLM 280) that can prototype, qualify, and create titanium components for clients who require traceable, low carbon, and circular titanium for their product line.
As a result of this collaboration, SLM’s international clients will have access to a distinctive titanium powder solution that recognises the importance of sustainable, 100% recycled titanium metal powders for leading companies.
The totally circular titanium metal powder from Iperion X will be a useful addition to SLM’s open architecture materials, according to SLM, which acknowledges its advantages in terms of business, technology, and sustainability.
A key benefit of the relationship between IperionX and SLM Solutions is the addition of recycled, reasonably priced titanium material to the material catalogue for SLM users.
They are excited to add the unique, 100% recycled titanium metal powder to our diverse selection of products. Leading enterprises, according to the companies, seek to produce high-strength, long-lasting components with low carbon titanium from traceable recycled sources for the defence, automotive, consumer electronics, and luxury goods industries.
A route to affordable, low-carbon, and circular titanium metal is provided by IperionX’s unique titanium technology.
PyroGenesis Canada Inc., a Montreal-based provider of innovative materials and metal powders for additive manufacturing (AM), reported receiving its first order by the tonne from an unidentified American client.
The customer placed a firm order for five metric tonnes, or 5,000 kg, of titanium powder from PyroGenesis as well as a contingent order for an additional six tonnes.
This signifies their official entry into the market for titanium metal powders. PyroGenesis has adopted a cautious, systematic approach to the commercialization of its metal powders with a purpose to manufacture the finest quality metal powders in the [AM] industry as they designed, then prepared, the innovative NexGen plasma atomization technology.
In accordance with its mutually exclusive partnership agreement with Aubert & Duval, PyroGenesis Canada Inc., a high-tech company that designs, develops, manufactures, and commercialises advanced plasma processes, is happy to announce that the Company has received and completed a sizable commercial order for titanium powders.
The Agreement lays out the parties’ plan for mutually exclusive supply of plasma-atomized titanium powder to the European market for additive manufacturing.
Titanium powders (Ti-6AI-4V) for use in metal additive manufacturing applications have been agreed to by AP&C, a GE Additive business, and Airbus.
The new multiyear agreement strengthens AP&C’s long-standing collaboration with Airbus by supplying Ti-6AI-4V powders.
IperionX Limited is happy to announce that it has reached a deal with Materials Resources, LLC, an Ohio-based aerospace additive manufacturing company, to qualify and demonstrate the performance of IperionX’s high-quality titanium alloy powders for additively manufactured aerospace parts.
This agreement is part of an MRL project with the U.S. Navy to test titanium flight-critical metal replacement components for the U.S. Department of Defense.
Aerospace Hiwing Titanium Industrial Co., a customer of Farsoon Technologies, a Chinese maker of SLM and SLS 3D printers, has developed a novel high-temperature titanium substance (AHTi).
AHTi, a company that specialises in the research and development of titanium materials, has created TA32, a high-temperature titanium powder that was created using Farsoon’s FS271M 3D printing equipment.
TA32 has been designed to resist operation temperatures of up to 550 degrees Celsius as a substitute material for steel or nickel-based superalloy components.
In order to satisfy the demands of additive manufacturing, Puris, LLC has announced that it has filed a patent for Puris 5+, a novel titanium powder formulation giving a high-strength, low-oxygen formulation.
According to reports, Puris 5+ is a specially formulated Ti-6Al-4V that satisfies all Grade 5 requirements.
The Osprey Ti-6Al-4V Grade 5 and Osprey Ti-6Al-4V Grade 23 titanium powders from Sandvik are produced using an electrode inert gas atomization (EIGA) technology to the highest international standards.
Designed for additive manufacturing, such as Laser and Electron Beam Powder Bed Fusion.
Uniformity Labs, a provider of engineered materials, offers titanium alloy Ti-6Al-4V (Ti64) powder for L-PBF. Uniformity Labs Ti64 Grade 23 has been created by a team of in-house materials scientists and 3D printing pioneers, and it demonstrates mechanical performance, surface roughness, and uniformity across the build bed.
