August 23, 2022 – TriTech Titanium Parts, a startup founded on April 5, 2022, uses three key technologies to make precision titanium parts.
America has been a successful business focused on recycling titanium into new products since 1984. Swenson explained that TriTech was created based on market customer demand, and the company uses the most appropriate technology. The customer company uses the most appropriate technology, and the customer needs to produce net-shaped titanium parts. They use a unique trio of technologies, including binder injection 3D printing, metal injection molding, and investment casting processes. 3D printing is the latest addition, while the binder injection process is ideal for producing complex titanium parts.
Unique Creativity Meets Multiple Optimal Features
There is no single technology that can meet all the best performance characteristics when manufacturing precision titanium parts,” said Bob Swenson. We have proven that different technologies can provide different results, so we have assembled a one-stop production technology lineup that offers the best options for many automotive, industrial, medical, and aerospace industries. To create a superior part, we match the design with the best manufacturing process.”
TriTech’s array of multi-explanation combinations can be used extensively for titanium part production for both small and large-volume requirements, rapid prototyping to accelerate product development and part testing and rapid design iterations, etc. Bob Swenson: “We can go from prototype to production quickly to meet tight new product development and commercial product availability needs. ” They have a complete supply chain, with the company’s engineering and production facilities located in Detroit, Michigan. Bob Swenson: “At TriTech, we work directly with our customers, ideally from the design phase, so we can help them design a manufacturable part that also meets their requirements. “
About more recyclable 3D printed titanium parts
Just late last month, IperionX Limited announced a partnership with Oak Ridge National Laboratory (ORNL) further to develop low-cost titanium alloy powders for additive manufacturing. Under a user agreement approved by the U.S. Department of Energy (DOE), they will collaborate at the DOE’s Manufacturing Demonstration Facility (MDF). They will use these powders to manufacture parts, particularly for potential applications in transportation. In addition, the project will validate the feasibility of 3D printing titanium aerospace parts in support of the U.S. Navy’s program to test flight-critical titanium replacement parts for the U.S. Department of Defense (DoD).
IperionX is focused on titanium because this material is critical to many industries, offering the highest strength-to-weight ratio of any known metal, natural corrosion resistance, and a higher melting point than aluminum, steel, and iron. iperionX has also developed a special process to produce low-cost titanium from titanium minerals or scrap titanium metal. This philosophy of zero-waste production of powders is in line with the goals of ORNL, which has been working on clean manufacturing methods and additive manufacturing, among other projects. 3D printing is often used for projects centered on recyclable manufacturing because of its ability to reuse materials and prevent unnecessary waste. This collaboration now aims to advance the application of low-cost titanium alloys developed by IperionX specifically for additive manufacturing.