Digital fabrication
Digital Fabrication
Move from modeled geometry to cut files, nests, setups, and parts that assemble predictably–with tolerances matched to purpose and iterative tweaks that remain affordable.
Working together
Most projects start by anchoring uncertainties, timelines, and the next credible demo or pilot milestone.
Based in Ottawa, Ontario. Supporting local and remote clients.
Problems this helps solve
- You need mechanically honest parts–not hobby prints–for fit checks or sales samples.
- Multi-process assemblies (printed + machined + sheet) rarely line up without planning.
- You want mold-friendly or weld-friendly geometry guidance before tooling spend.
- Documentation for external shops or internal repeatability is blocking you.
Typical deliverables
- Manufacturing-ready CAD packages with revision notes
- Toolpaths or vendor-ready files with machine assumptions documented
- Assembly sequences, fastener BOMs, and tolerance callouts proportional to fidelity
- Photographic or measured validation of critical interfaces
Tools and process
- CNC machining, laser cutting, FDM/resin workflows as fits the fidelity target
- Fixturing approaches for repeatable secondary operations
- Casting-friendly draft analysis and sane split lines
- Iteration cadence grounded in measurable checkpoints
Who it is for
- Product builders needing repeatable shop outcomes
- Artists translating digital forms into tactile pieces
- Educators producing durable classroom hardware
Example project types
- Enclosure families with parameterized wall thickness transitions
- Modular jig systems tuned to a repeatable assembly chore
- Large-format lettering or scenic structures with sane joinery
- Short-run kiosk or demo housing with service access priorities
Start a project conversation
Share constraints, timelines, and the outcome you want to prove next.