XJet Ltd announced the addition of ceramic inkjet 3D printing to its line of Additive Manufacturing capabilities. The ceramic 3D printed parts will be shown on display for the first time at formnext in Frankfurt, Germany on November 15th.
NanoParticle Jetting (NPJ) technology was unveiled at the RAPID Show in Orlando, Florida in May 2016. Its introduction has caused many in the industry to dub the technology as a “game-changer” with its unprecedented levels of details, surface finish and accuracy, producing high quality parts with any geometry.
“After many years of research, we are excited to have reached this milestone of development, producing another high quality material through NanoParticle Jetting (NPJ),” said Hanan Gothait, CEO and Founder of XJet. “NPJ is a truly disruptive technology as it offers a totally new level of fine details, material properties and simple clean operation without the need to design or remove complex support structures.
“The expansion of NanoParticle Jetting to include ceramics will allow XJet to address an even wider range of applications, such as dental, medical and specific industrial applications” added Dror Danai, Chief Business Officer, XJet. “At formnext we will demonstrate how the usage of ink-jet technology, and it's very large tray, will encourage more industries to look at Ceramic Additive Manufacturing as an option for both customized parts and relatively large scale manufacturing of small parts.”
NanoParticle Jetting produces an ultra-thin layer of droplets containing ceramic nanoparticles. These are deposited onto the system build-tray, producing ceramic parts with the ease and versatility of inkjet printing.
Delivered as sealed cartridges, the liquid dispersions are loaded easily into the XJet system, eliminating the need to handle dangerous powders. Inside the system’s build envelope, extremely high temperatures cause the liquid ‘jacket’ around the ceramic nanoparticles to evaporate. This results in the same mechanical properties as parts made in a traditional way. In addition, the ceramic part undergoes an easy sintering process, with the supports removed simply and with almost no manual intervention.