Meet the InnoventX: Compact, flexible, easy-to-operate binder jetting system

Why is the InnoventX so popular?  In almost a decade on the market, the InnoventX has become the trusted leader in binder jetting research because of its size, easy operation, and powder flexibility.   This compact yet powerful 3D printer is designed to reliably produce functional parts in various materials, including metal, ceramics, and composites. Its patented print technology, Triple ACT, combines the dispensing, spreading, and compacting processes critical for consistent, high-quality prints. The InnoventX boasts remarkable features that set it apart: Adaptable open system: This printer caters to your R&D needs with various adjustable parameters. Minimal material usage: Requiring just 2 liters of volume, it's perfect for R&D projects with limited test materials. Compact design: The printer's small footprint and built-in HEPA filter make it space-efficient and hassle-free, enabling usage without external air exhaust systems. Environmentally responsible: The InnoventX operates on a mere 220V, making it energy-efficient and a cost-effective choice for your needs. Learn more about the InnoventX More Resources: Case studies, on-demand webinars, and more to learn how universities and researchers use the 3D printing technologies from Desktop Metal San Diego State University studies 3D-printed anisotropic microstructures with the InnoventX   The Powder Technology Laboratory at San Diego State University is a world-leading center in sintering research whose projects explore fundamental understandings of sinter-based additive manufacturing. Using the InnoventX, researchers focus on understanding the binder jetting process itself and studying the material's anisotropic properties at different workflow stages.  Download the San Diego State University Case Study Red Deer Polytechnic invests in Desktop Metal additive manufacturing solutions that benefit students and industry.   The Centre for Innovation in Manufacturing—Technology Access Centre (CIM-TAC) of the Red Deer Polytechnic in Canada leverages the InnoventX to 3D print various metal alloys and technical ceramics that are difficult to manufacture with laser-based additive processes, helping regional businesses turn innovative ideas into products. Download the Red Deer Polytechnic Case Study On-Demand Webinar: Metal 3D Printing in Education and Research   Join us to explore use cases for metal 3D printing in a variety of academic settings – from Bound Metal Deposition technology students can operate in the classroom to advanced open-material Binder Jet Technology platforms for researchers to conduct customized experiments. Watch the On-Demand Webinar Desktop Metal, 63 Third Avenue, Burlington, MA 01803, United States, (978) 224-1244

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