Multi-axis machines are capable, but only with the right software. Flexam closes that gap with automated, non-planar slicer software for multi-axis systems.
Robotic WAAM toolpaths for cladding worn industrial parts. Variable bead width, surface-following passes, fixturing-aware path planning.
Non-planar toolpaths for form-fitting medical devices with complex organic geometries. Print along body contours in TPU and elastomers.
Layer-time-aware path planning, reinforcement-aware seam placement, multi-axis paths for non-planar walls.
Conventional slicers were written for gantry FDM. We rebuilt the pipeline around the geometry of robotic and multi-axis systems, with automation and ML at the core.
The slicer decomposes a part into regions and picks the optimal print strategy for each — no manual splitting, no hand-tuned per-feature settings.
Generate true 5- and 6-axis toolpaths along curved surfaces. Eliminate stair-stepping, reduce supports, build along the load direction.
Learn from your machine and material data so each new part comes back faster, with strategy choices that match what's worked before.
*Vendor names are shown as examples of industrial systems our software supports.
Our team brings together deep slicer engineering, robotics research, and industrial AI.
Hear from our founders on 3Druck →
Our core slicer team is highly experienced writing path planners, geometry kernels, and multi-axis post-processors — from research prototypes to production code.
Grounded in robotics research at top international labs, then pressure-tested on real robotic cells. We bridge the gap between academic innovation and industrial reliability.
Experience delivering production ML systems for leading European industrial companies — the same discipline we apply to strategy selection and process optimization in Flexam.
Show us your machine and a part. We'll show you what an automated, multi-axis pipeline can do for it.