A large-volume, pellet-fed, moving-gantry industrial FGF 3D printer. Build volume is a parameter — it scales to your needs.







| Build volume | ~1000 × 1000 × 1000 mm (parametric, scalable) |
| Architecture | Moving gantry / CNC router (fixed bed) |
| Feedstock | Pellet / granule (not filament) — FGF |
| Extruder | Single screw, 4-zone band heaters, water-cooled throat |
| Nozzle | Ø5 mm (large format) |
| Target throughput | up to ~5 kg/h (material dependent) |
| Motion (X/Y) | Rack & pinion + closed-loop motor + gearbox, dual drive |
| Motion (Z) | Ballscrew + braked servo + mechanical catch safety |
| Guidance | Industrial linear rail (all axes) |
| Material | Granule, recycled, composite (PLA · PETG · ABS · PP …) |
| Structure | Welded steel construction, FEA-validated (11/11 passed) |
| Speed (X/Y) | ~333 mm/s (preliminary) |
| Speed (Z) | ~145 mm/s (preliminary) |
| Power draw | ~5.6 kW connected / ~4.2 kW demand (3× 230 V) |
Technical values are preliminary; final specifications are confirmed after validation.
Raw or recycled granule instead of filament. Cheaper material, higher throughput.
Fixed bed + welded-steel moving gantry. Structure validated with finite element analysis (FEA).
The extrusion screw and barrel are manufactured in-house — fast service, fast spares, lower cost.
Braked servos + mechanical catch block: the bridge won't drop even if power is cut.
Grind waste plastic, print it again. Designed for glass/carbon-filled composites.
Standard components, scalable design; adapts to different build volumes by formula.
Composite lay-up molds, plugs, casting patterns, thermoforming tools, and production fixtures. Dramatically shorter lead times compared to traditional methods.
Shred waste plastic, convert to pellets, print large parts. The in-factory loop lowers both material cost and disposal expense — ideal for manufacturers already handling plastic scrap.
Boat hull molds, plugs, deck elements, and prototype marine components. Large build volume and reinforced composite material support provide critical advantages.
Vehicle body prototypes, aerodynamic components, casting and thermoforming molds. Far faster and more flexible than traditional tooling for low-volume or one-off parts.
Custom furniture, interior surface elements, architectural installations and scale models. Compatible with recycled and natural-composite materials.
Material research, process optimization, and large-scale printing studies on an open platform. Pellet flexibility enables a broad material research scope.
The large-format FGF market has two distinct segments: affordable but structurally limited entry systems, and full industrial systems that require enterprise budgets. The G1000 was designed with domestic engineering to fill the gap between them.
| Feature | VORMETRA G1000 | Entry-Segment FGF | High-End FGF |
|---|---|---|---|
| Feed type | ✓ Pellet (FGF) | Filament (FDM) or pellet | Pellet (FGF) |
| Build volume | ✓ ~1 m³ (parametric) | 0.3–0.6 m³ typical | 0.5–3 m³ typical |
| Structure | ✓ Welded steel, FEA-validated | Aluminium extrusion / light steel | Heavy welded steel |
| Extruder production | ✓ In-house (screw + barrel) | Supplier dependent | Supplier or custom |
| Recycled pellets | ✓ Core design requirement | Limited / untested | Usually possible |
| Service & spares | ✓ Local, fast (extruder in-house) | Global supply delay risk | Global service network |
| Origin & support | ✓ Türkiye, domestic engineering | International | International |
| Price segment | Mid-market (TBD) | Entry (low) | High-end ($150K–400K+) |
Competitor categories are based on general market observation; they do not represent any specific brand or model. Price segments are preliminary.
Let's plan the right configuration for your application together.
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