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PrintYEG prints functional engineering parts in Edmonton — carbon-fiber filaments (PLA-CF, PA-CF), polycarbonate (PC), ABS, ASA, PETG. Brackets, jigs, fixtures, drone frames, RC parts, enclosures, end-use parts that actually work. Build volume 256 × 256 × 256 mm, layer heights down to 0.12 mm, infill from 10% to 100% gyroid. Quote in ten seconds, ship in 2–3 business days, $20 CAD flat anywhere in Canada. Live viewing on every order.
Why FDM for end-use
PLA-CF and PA-CF for stiffness, dimensional stability, and a professional matte finish. Near-zero warping even on big flat parts.
Polycarbonate (PC) rated to 110 °C continuous. ABS and ASA for under-the-hood and enclosure use. Real engineering envelope.
Jigs, fixtures, brackets, drone frames, RC parts, enclosures, camera mounts, fixture rails. Anything that needs to survive a shop environment.
5, 10, 50 identical parts in a run. Nested printing keeps per-unit cost predictable. No MOQ, no setup fees.
Typical parts
Assembly fixtures, drill jigs, sanding blocks, welding alignment guides. PLA-CF holds shape under repeated use.
Camera mounts, equipment brackets, tool holders, equipment rack adapters. ABS or ASA for shop environment.
Replacement frames, prop guards, battery mounts, antenna clips. PA-CF for light and rigid.
PCB housings, sensor enclosures, electronics boxes. PC for heat-generating boards, ASA for outdoor/UV.
Broken appliance knobs, discontinued covers, obsolete brackets. CAD it, we print it — typically cheaper than OEM.
5–50 identical parts. No MOQ. For products where injection molding volume doesn't make economic sense.
FAQ
For heat: PC (polycarbonate) holds shape to ~110 °C, ABS and ASA to ~90 °C, PA-CF (carbon-fiber nylon) to ~100 °C. For stiffness and load: PLA-CF and PA-CF give the closest thing to injection-molded rigidity you can get on an FDM printer. We'll recommend the right one based on your part's duty cycle — just ask.
Yes — our quote builder exposes infill from 10% to 100%. Wall count and top/bottom layers default to values tuned for strength; if you need specific wall thickness (for threaded inserts, heat-set bushings, or engagement depth), note it in the customer-notes field and we'll match it.
Not by default. FDM parts have micro-gaps between walls and infill. For watertight parts, we'd print with 5+ walls and 100% infill in PETG (our most consistent extrusion) — still recommend an epoxy seal coat for pressure-holding applications. Don't use FDM parts for food-grade or pressurized fluid systems without post-processing.
You can print modelled threads (M6 and up work well; M3 is possible but fragile). For parts that need real-world thread durability, design for heat-set brass inserts (our preferred approach) or bolts through PLA-CF walls with captive nuts. Heat-set inserts are the strongest FDM thread solution.
±0.2 mm on XY features, ±0.3 mm on Z. Hole diameters print ~0.2 mm undersize (FDM artifact) — design holes that amount larger if they need to press-fit. For fit-critical assemblies, order a test print first and we'll dial compensation for production parts.
Yes. We'll nest multiple parts on one bed where they fit, and per-unit machine time drops. Not a volume shop — if you need 500 identical parts we'd recommend injection molding — but 5–50 identical parts per run is in our wheelhouse.
Upload and quote. We'll suggest the best material for your duty cycle if you're not sure.