FreeFORM expands offering with Tritone’s MoldJet technology
May 1, 2023
Tritone Technologies, Rosh Ha’ayin, Israel, has announced that FreeFORM Technologies, St Marys, Pennsylvania, USA, will expand its service offerings by adding a Tritone Dominant sinter-based Additive Manufacturing machine. With Tritone’s Dominant and MoldJet powder-free technology, FreeFORM intends to broaden the range of materials and geometries it can provide to its diverse customer base.
Through this partnership, Tritone plans to strengthen its presence in North America, following the recent opening a US-based subsidiary. FreeFORM has a strong leadership team with experience in Metal Injection Moulding, Powder Metallurgy, applications and automation.
“We have followed Tritone with great interest since we first saw their technology at Formnext 2019,” stated Nate Higgins, president, FreeFORM. “Their approach is unique and addresses some points that we think are important to expand portfolio reach. At FreeFORM our aim is to solve problems. Part of it is have great partnerships. We look forward to working with Tritone and using their unique technology with our customers.”
The Dominant system is based on Tritone’s MoldJet technology, a sinter-based Additive Manufacturing solution which enables industrial production of high-quality metal and ceramic parts at an industrial speed. Built for producing large quantity of high-density parts with complex geometries and a wide variety of materials, the technology enables parallel manufacturing of parts of various sizes, shapes, and applications. MoldJet technology also enables the quick switchover between metal and ceramic materials.
“FreeFORM is a true pioneer in the sinter-based Additive Manufacturing community and we are thrilled to welcome them to the growing Tritone North America family of service providers,” added Ben Arnold, VP Business Development, NA, Tritone Technologies. “Our strategy is to grow our presence in the region by making sure all prospects have easy access to our technology on a service basis and this is an important step in that direction.”