Penta Laser60kW
BOLT VII 60kWWork Area12000×2500mm
Max Steel80mm
Speed @5mm90 m/min
Price$380,000 - $520,000
Browse 5 fiber laser cutting machines with 12000×2500mm work area from 5 brands. Compare power, capabilities, and pricing. Pricing from $380,000 to $900,000.
5 machines from 5 manufacturers offer the 12000x2500 work area format. Average laser power across these machines is 38.0kW. Work area selection is driven by your maximum sheet/part dimensions: the 3015 format (3000×1500mm) fits standard European sheet sizes, while 4020 (4000×2000mm) covers North American 4×8ft and large-format Asian sheets. Oversized formats (6020, 8025) serve structural steel, shipbuilding, and heavy equipment manufacturing.
Larger work areas don't always mean better: they increase machine footprint, building cost, and sheet handling complexity. Match your work area to your dominant sheet size plus a 10–20% reserve, unless you specifically process oversize parts. The 5 machines listed above let you compare configurations at this work area size across 1 manufacturing origins.
| Brand / Model | Power | Work Area | Max Steel | Speed @5mm | Price Range | Origin |
|---|---|---|---|---|---|---|
| Penta Laser BOLT VII 60kW | 60kW | 12000×2500 | 80mm | 90 m/min | $380,000 - $520,000 | 🇨🇳 |
| SENFENG SF12025H 60kW | 60kW | 12000×2500 | 60mm | — | $900,000 - $1,500,000 | 🇨🇳 |
| Golden Laser GF-25120JH 30kW | 30kW | 12000×2500 | 40mm | — | $700,000 - $1,100,000 | 🇨🇳 |
| DNE Laser D-Giant 12025 20kW | 20kW | 12000×2500 | 30mm | — | $600,000 - $900,000 | 🇨🇳 |
| Yawei HLL-25120 20kW | 20kW | 12000×2500 | 30mm | — | $550,000 - $800,000 | 🇨🇳 |
Selecting the right fiber laser cutting machines involves evaluating five critical factors: (1) Material type and maximum thickness — determine the minimum laser power required. (2) Work area dimensions — match to your largest sheet or part size, with common formats being 3015 (3000×1500mm) and 4020 (4000×2000mm). (3) Production volume — high-volume shops benefit from automation features like sheet loading/unloading and nesting software. (4) Budget — consider total cost of ownership including installation, training, consumables, and maintenance, not just purchase price. (5) Service and support — verify the manufacturer has local service partners in your region. Use our comparison table above to evaluate 5 options side by side, filtering by the specifications most important to your application.
Five primary factors determine laser cutting edge quality: (1) Laser power and beam quality (BPP/M²) — lower BPP values produce focused spots with higher energy density for cleaner cuts. (2) Cutting head optics — auto-focus heads with collimation adjustment optimize beam characteristics for different materials and thicknesses. (3) Motion system accuracy — positioning accuracy (±0.03mm typical for premium machines) and repeatability directly affect dimensional precision. (4) Assist gas selection and pressure — nitrogen for oxide-free edges on stainless and aluminum, oxygen for faster thick-steel cutting. (5) Mechanical rigidity — machine bed flatness, gantry stiffness, and vibration damping affect edge straightness and surface roughness. Compare these specifications across our 5 listed machines using the table above.