TRUMPF industrial fiber laser cutting systems deliver verified M² < 1.1 beam quality, ISO 9013 Class 1 edge precision, and documented process recipes — trusted by sheet-metal fabricators, tier-1 automotive lines and aerospace job shops in 60+ countries.
A single engineering platform — TruLaser sheet systems, TruLaser Tube, TruMark marking, TruDisk welding and TruPrint metal 3D printing — sharing the same validated control architecture, laser source families and service network.
Workhorse 1.5–12 kW fiber sheet cutter for 3,000 × 1,500 mm sheet. BrightLine Fiber mode delivers ISO 9013 Class 1 edges on mild steel up to 25 mm.
1.5–12 kW · 3000 × 1500 mm · 110 m/min Head Speed
20–30 kW heavy-plate fiber cutting: 50 mm mild steel, 40 mm stainless, 30 mm aluminum. Built for shipbuilding, heavy machinery and pressure-vessel fabrication.
20–30 kW · 50 mm Max Thickness · N2 High-Pressure Cut
Fiber tube and profile cutter with 6–12 m bar lengths, auto-loading and torch-ready sweeping cuts. Ideal for agricultural, furniture and structural steel fabricators.
3–6 kW · Ø 10–254 mm Tubes · Auto Loading
36–400 ton CNC press brakes with ACB laser angle measurement. Sectional tooling, 4-axis back-gauge and TruTops Bend offline programming included.
36–400 Ton · ACB Angle Measurement · 4-Axis Back-Gauge
20–50 W fiber, MOPA and green laser markers for metals, plastics and medical-device UDI. Full IEC 60825-1 Class 1 enclosures for operator-line integration.
20–50 W · 1064 / 532 nm · UDI-Ready
Laser Metal Fusion systems from 100 × 100 × 100 mm to Ø 300 × 400 mm build volume. Multi-laser parallel scanning for aerospace, medical and tooling end-use parts.
LMF · Multi-Laser · 20 μm LayerThese are not brochure adjectives — they are the verification gates every machine passes before leaving the factory.
Every TruDisk and TruFiber source is individually characterized for M², power stability (±1%) and wavelength purity. The burn-in test report accompanies the machine on delivery.
From thin-gauge job-shop systems to 30 kW heavy-plate cutters, a unified control architecture and nesting workflow keeps operators productive across the entire power envelope.
Before install, customer sample parts are cut against documented cut-quality matrices: edge class, kerf width, perpendicularity, heat-affected zone — all recorded to ISO 9013.
Dense North America and EU field-engineering networks, TruConnect remote diagnostics, and regional parts hubs cut unplanned-downtime recovery windows from days to hours.
LiftMaster, PartMaster and sorting robotics integrate directly with TruTops Boost nesting for unattended 3-shift production — validated handoffs to MES, ERP and tracked by TruConnect dashboards.
Independent used-equipment data places TRUMPF fiber systems at 40–60% of list price at 5 years — versus 15–25% for low-tier imports — materially lowering effective TCO for multi-cycle owners.
A 12 kW TruLaser 3030 cutting production-grade parts with N2 high-pressure process — sampled from our Connecticut applications lab.
TRUMPF laser systems are on the production floor wherever part-level traceability, tight tolerance and documented process recipes matter.
AS9100-aligned process documentation, titanium and Inconel cutting recipes, AS9102 first-article packets.
Hot-stamped boron cutting, laser welding for battery trays, PPAP-ready capability studies.
BrightLine Fiber on mixed material workflows, TruTops Boost nesting cuts material waste 8–14%.
30 kW fiber cutting of 50 mm mild steel, 40 mm stainless, 30 mm aluminum for shipbuilding and yellow goods.
UDI-compliant laser marking for Class II / III devices; cleanroom-integrated TruMark 5020 stations.
Copper busbar welding with green-wavelength TruDisk Pulse, battery cell can cutting with fiber.
Precision micro-cutting of thin foils and leadframes, UV marking for polymer device bodies.
TruPrint metal LMF for conformal cooling channels — reducing cycle times 12–28% for injection mold inserts.
Representative ranges from anonymized customer benchmarks, documented during applications-lab qualification and first-year field audits. Individual results vary by material, nesting strategy and shift discipline.
Replaced a 4 kW CO2 with a 12 kW TruLaser 3030 fiber; nested-part throughput rose 32% and power draw fell 38% at equivalent duty cycle.
BrightLine Fiber cutting profile lowered N2 consumption by 46% on 4–10 mm stainless compared to prior CO2 recipe — measured over a 90-day production window.
LiftMaster + PartMaster robotic tower paired with TruLaser 3030 achieves 2,100 validated parts per unattended 8-hour night shift at 96% first-pass yield.
Fiber laser architectures convert 30–42% of wall-plug energy into cutting power — roughly 3× CO2. Combined with regenerative braking on gantries, LED cabin lighting and closed-loop chillers, TRUMPF TruLaser systems have earned documented kWh-per-cut reductions in third-party energy audits conducted across customer sites in 2023–2025.
Edge-class measurement protocol and 120-sheet run data comparing BrightLine Fiber against legacy CO2 on ASTM A36 plate.
Wall-plug efficiency, consumables, service, residual-value and throughput modelled on a 6 kW head-to-head basis.
Commissioning checklist, nesting discipline and failure-mode instrumentation that turn a supervised cell into a lights-out line.
Ship us a drawing and a sample plate. We return ISO-9013-grade cut samples, a parameter sheet, and a throughput projection for your shift pattern — typically within two weeks.
