End-Use parts qualityadmin2024-06-02T10:29:53+00:00 END-USE PARTS QUALITY Get to know XJet’s unique high resolution printing technology, for a new standard of précised, dense and complexed 3D parts PRINT WITH US END-USE PARTS QUALITY Get to know XJet’s unique high resolution printing technology, for a new standard of précised, dense and complexed 3D parts PRINT WITH US The Only High-Resolution Direct Material Jetting Solution for Metal and Ceramic End-Use Parts Nano Particle Jetting (NPJ):A groundbreaking technology enabling digital control of final part quality at the pixel level ASK FOR SAMPLE PARTS 1440 DPI Resolution Printing Jetting Extra Thin Layers at <10 Micron 120 Million Drops/Second (max) Simultaneous Soluble Support Layers Printing The only high resolution direct material jetting for metal & ceramic end-use parts Nano Particle Jetting (NPJ):A groundbreaking technology enabling digital control of Final Part Quality at the pixel level: ASK FOR SAMPLE PARTS 1440 DPI resolution printing Jetting extra thin layers, <10 Micron 120 million drops/second (max) Simultaneous Soluble Support layers printing A New Level of End-Use AM Part Quality Geometrically Complexed and Densest 3D Products in a Fully Automatic Digital Process A new level of end-use AM parts quality Geometrically complexed and densest 3D products, in a fully automatic digital process Details and Inner Cavities200 μm Enabling Unique Applications: Heat Exchanger, Flow Filter, Pharmaceutical Labs Consumables Accuracy50 μm Enabling Pre-Assembled Components, High-End Industrial Parts with No Machining Smooth 1.6 μm End Use Products with No Machining, nor Post Process Density>99.5% Bringing the Full Material Properties of Traditional Manufacturing Details and Inner Cavities200 μm Enabling Unique Applications: Heat Exchanger, Flow Filter, Pharmaceutical Labs Consumables Accuracy50 μm Enabling pre-assembled components, high-end industrial parts with no machining Smooth 1.6 μm End use products with no machining, nor post process Density>99.5% Bringing the full material properties of traditional manufacturing