With the patent-pending Hybrid DECI Duo™, support removal, powder removal, and surface finishing of 3D printed parts is automated in a single, multi-functioning system and designed with a space-saving footprint that optimizes production floor space. The Hybrid DECI Duo has been engineered for the most advanced 3D print materials such as resins, thermoplastics, and metals, and offer fast cycle times for even the most complex parts, including those with internal channels, organic geometries, and honeycombs.
The Duo’s unprecedented performance is a result of our Thermal Atomized Fusillade (TAF) technology, in which two perpendicular, single-axis jet streams comprised of compressed air, detergent, and suspended solids providing targeted blast sequences while utilizing 360° part rotation for maximum surface exposure. As a result, the DECI Duo is capable of removing supports and finishing surfaces of the following 3D printing technologies: SLA, SLS, DMLS/Binder Jetting, MJF, and SLS.
Through a combination of optimized energy, exclusive chemistry including detergents and suspended solids, the system is guided by our proprietary AUTOMAT3D™ software to remove support material and provide the desired surface finish while preserving fine-detail part geometries. The Hybrid DECI Duo thinks like a member of your team, monitoring and reacting in real-time to maintain optimal conditions with sophisticated features like pre-programmed preventative maintenance schedules, intelligent cycle time programming, and one-touch repeatability with recipes stored within the software.
Thoughtfully designed, the Hybrid DECI Duo also includes an LED lighted chamber, noise-reducing features for a low dBa, and the flexibility of a manual mode to allow for hands-on part finishing. We’re always thinking about how to optimize efficiency, with considerations like casters for easy installation, a smart electrical panel design, and pass-through door capability to help streamline your entire additive manufacturing operation.Kontakta oss för mer information