DELRAY Systems to distribute Tritone 3D printers in the US market
A key milestone as the Israeli company executes North American expansion strategy
Tritone Technologies, a provider of metal and ceramic AM technology for industrial production, is partnering with Michigan-based DELRAY Systems to establish a presence and technical resources in the heart of America’s automotive capital and beyond. This is another important milestone for Tritone as they execute a North American expansion strategy.
Tritone has expanded its foothold in the North American region over the past year with the establishment of a US-based subsidiary and several recent machine installations. The company’s latest partnership with DELRAY Systems further strengthens its position as an important player in the US AM market.
Delray and Tritone can now provide complete end-to-end solutions for customers seeking to streamline their manufacturing of metal and ceramic components.
“We examine the requirements of our customer base and are aware of the technologies that can drive their business to success”, said Joe Rocca, President, and founder of Delray. “Tritone fills a gap in the market where customers want to bring metal AM in-house, but don’t want to deal with the challenges of powder-based systems. For these cases, Tritone is the only company with a practical solution.”
“The leadership team at Delray have successfully introduced innovative 3D Printing solutions in their markets for over 20 years,” says Ben Arnold, VP Business Development NA, Tritone Technologies. “They have the technical resources and applications focus we look for to build a strong presence in this important region. We are proud to have them as partners and look forward to growing with them”.
Tritone offers two AM systems that utilize Tritone’s proprietary MoldJet technology. This innovative powder-free AM technology enables the industrial production of high-quality metal and ceramic parts at industrial speed. MoldJet is specifically designed to produce large quantities of parts with complex geometries. The technology allows for quick and easy switching between a wide variety of metals and ceramics, making it possible to manufacture parts of different sizes, shapes, and applications.
