Binder jet 3D printing featuring patented Triple ACT for excellent surface quality and specialty materials, including both metals and ceramics.
Wide Material Capability
Excellent Surface Finish
The X-Series family of scalable 3D printers — the InnoventX™, X25Pro™ and X160Pro™ — feature industrial piezoelectric printheads and patented Triple ACT advanced compaction technology, which dispenses, spreads, and compacts ultra-fine powders with tight parameter controls. Triple ACT allows these open-materials systems to process metals, ceramics and more with high density and repeatability for functional, precision parts and tooling in a wide range of build areas.
Wide Material Capability
The X-Series binder jet 3D prints a wide variety of materials, including metals, ceramics, 和复合材料. This flexibility is achieved through Triple ACT which enables the use of both high- and low-flow materials, as well as small and large particle sizes. The X-Series is used to process stainless steels, tool steels, nickel alloys, aluminum and titanium alloys, metal composites and ceramics, such as silicon carbide and aluminum-infiltrated boron carbide (B4C).
With density variation across the build area, dimensional tolerances can be controlled within 1-2.5% on a first print run. With optimization for production, X-Series systems routinely achieve dimensional tolerances of less than 1%, all while maintaining post-sintered densities from 97% to better than 99% for most metals.
Excellent Surface Quality
The X-series achieves world-class surface finish through the combined benefits of the Triple ACT system and precision binder placement. High print bed density and optimized binder placement all but eliminate binder bleed and overspray, producing excellent edge definition, surface quality, and surface finish as low as 4 µm Ra.
Applications by Industry
Explore applications for 3D printing across a range of industries.
For automotive manufacturers, 3D printing opens new opportunities for rapid prototyping, creating parts with more complexity than ever before, identifying opportunities for assembly consolidation and exploring new business models centered around on-demand production.Learn More
Manufacturers of consumer goods can use 3D printing for rapid prototyping and testing of new designs for both functionality and market feedback, and as a flexible manufacturing line for low-volume and regionally-targeted production that allows greater design freedom for product customization.Learn More
By investing in 3D printing, educational institutions provide students the tools to bring their work to life, help them build important career skills and enable them to act as additive manufacturing champions when they enter the workforce.Learn More
Using 3D printing, machine designers can print and test multiple part variations, create geometry that cannot be machined, consolidate large assemblies into fewer parts and reduce warehousing costs by printing custom parts on demand.Learn More
Heavy industry firms can use metal 3D printing to create highly-customized components from hard-to-machine materials, keep per-part costs low for custom, low-volume parts, and enable the creation of new designs with greater geometric complexity.Learn More
For companies that produce manufacturing tooling, 3D printing can be an invaluable resource, allowing them to quickly and inexpensively produce complex, custom tooling and easily replace tools when needed, reducing downtime on manufacturing lines.Learn More