Delivering replicable, high-quality uniformity for every part, every time – even with the most complex geometry, our multi-functioning Hybrid Series will tackle both support removal and surface finishing in one compact footprint. Developed to address the most complex and rugged of today’s additive manufacturing materials, our Hybrid Series delivers fast cycle times by optimizing energy to meet your desired specifications.
PostProcess delivers consistent support removal and surface finishing on every part to exacting standards. Our automated solution ensures no part breakage, no missed supports and precise surface finish to your specified Roughness Average (Ra).
PostProcess understands the crucial nature of production throughput to achieve growing volumes of 3D printed parts. Our solutions reduce the cycle time for removing supports and surface finishing to ensure your production volumes are achieved.
PostProcess harnesses extensive expertise to address support removal and surface finishing on advanced thermoplastics and superalloy metals at much faster speeds than manual processing.
We first understand the 3D printing methodology, material and geometry; and then implement a solution for your requirements. Our proprietary software has been developed to include variable levels of focused agitation which adjust for tightly controlled heat, constant detergent flow and variable air pressure to ensure the right level of support removal and/or surface finish.
Compressed air works as a propellant for suspended solid media, within the Hybrid chamber, to deliver accurate support removal and surface finishing. The Hybrid Series has been designed to accomplish both support removal and surface finishing in one space saving footprint to maximize utilization of production floor space.
Detergents and suspended solids have been developed specifically for 3D metal parts and high-performance plastics. Working in conjunction with our proprietary software, patent-pending hardware and our exclusive consumables we produce the right mixture to be discharged over the surface and provide exacting support removal and surface finishing.