=
X Product has been added successfully. See your cart
Order By:

Description: , sPECIFICATIONS, MACHINE STRUCTURE: FLYING OPTICS, LASER TYPE: co2 gAS, MAXIMUM WORKPIECE DIMENSIONS: 60.039 IN X 120.078 IN, MAXIMUM WORKPIECE WEIGHT: 2,050 LBS., MACHINE TRAVELS

Description: PRELIMINARY SPECIFICATIONS, TRUMP TRUMATIC CNC LASER CUTTER WITH LIFTMASTER, MODEL L4050, YEAR 2004, 5000 WATT CAPACITY, 80" X 160" SHEET SIZE, 160" X - AXIS TRAVEL, 80" Y - AX

Description: , Maximum Cutting Area - (X) 120.86" x (Y) 61.02", Maximum Material Thickness - 0.875" (4KW) - 0.625" (2KW), Table Loading Weight - 1.653.46 lbs., Positioning Speed X/Y/Z - 9,448"/9,448"/4

Make/Model:
SLM SLM 280-HL

Description: Specifications, Effective Build Volume: , 11" x 11" x 13.8", Variable Layer Thickness:, 20 - 100 μm, Min. Wall Thickness / Scanning Line: , 180 μm, Build Platform Max. Temperatu

Date of Manufacture: 15

Make/Model:
TRUMPF TRUMATIC L3050

Description: Specifications, Laser Output: , 5000W, Number of Pallets: , 2, Work Area:, 5' x 10', Max. Material Thickness: , 1" (Mild Steel), Max. Workpiece Weight: , 2,000 lbs, Po

Date of Manufacture: 2005

Make/Model:
SLM SLM 280-HL

Description: Specifications, Effective Build Volume: , 11" x 11" x 13.8", Variable Layer Thickness:, 20 - 100 μm, Min. Wall Thickness / Scanning Line: , 180 μm, Build Platform Max. Temperatu

Date of Manufacture: 15

Make/Model:
SLM SLM 280-HL

Description: Specifications, Effective Build Volume: , 11" x 11" x 13.8", Variable Layer Thickness:, 20 - 100 μm, Min. Wall Thickness / Scanning Line: , 180 μm, Build Platform Max. Temperatu

Date of Manufacture: 13

Description: , Technical Specifications, MOTION PACKAGE, Travel Method X axis for work piece movement, Y axis for cutting head , movement , Control Method X, Y & Z simultaneous 3 axis control and B

Description: , Specifications:, Working area:, X-axis: 120", Y-axis: 60", Z-axis: 5", Maximum work-piece weight: 1562 lbs., Maximum positioning speed, Axis parallel: 2400 inches per minute<

Description: , Basic specifications, CNC unit: AMNC-F 32 bit, Laser oscillator: Fanuc AF4000i-B, Carriage and laser shuttle table (LST) travel, Y Axis: 61", X Axis: 129", Maximum work area: 12

Description: AMADA FO MII 3015 NT CNC LASER CUTTING MACHINE, New 2012, Amada AMNC-F control, Oscillator AF4000iB - 4000 watt with approx. 12500 hours, 3070 x 1550mm cutting area, Z=200mm, 25mm max thickness mild s

Date of Manufacture: 2012

Control: Amada AMNC-F control

£P.O.A

Description: CNC fiber laser cutting Baykal Fiber BSL-F 3015, 2 kW. YoM: 2012

Date of Manufacture: 2012

Description: Mazak Space Gear 48, 2 kW CNC laser cutting machine. YoM: 2000

Date of Manufacture: 2000

Description: CO2 Laser:750W, Power distribution:TEM, Pulse frequency (HF):100 Hz - 100kHz, Table dimensions (mm):Ø 630, Table rotation :360°, Longitudinal travel (X) (mm):700, Cross travel (Y) (mm):5

Description: Specifications, Travels: , ., - X-Axis: , 120", - Y-Axis: , 60", - Z-Axis: , 3.9", ., Cutting Heads: , 7.5" and 5", ., Max. Positioning Speed, Parallel Axis X, Y

Date of Manufacture: 11

Description: , Travel Method X & Y - Axis Beam Move, Drive Method X Rack & Pinion - Y & Z Ball Screw, Work Area :, X: 121 (3070mm), Y: 61 (1550mm), Z: 7.87 (200mm), Maximum Thickness:, 7/8

Description: PRELIMINARY SPECIFICATIONS, MITSUBISHI 5 AXIS CNC LASER, MODEL 3020HT, YEAR 1994, NEW RESONATOR INSTALLED RECENTLY, 3000 WATT CAPACITY, 5' X 10' TABLE, 122" X - AXIS TRAVEL, 78

Description: , Motion Drive System Design: Precision rack & pinion, Processing Lens Focal Distance (in): 5.0/7.5, No. of control axes: 3, Workpiece dimensions (in): 120.1 x 60.0, Stroke (X,Y,Z) (in)

Description: , MACHINE POSITIONING SYSTEM..............: Ball Transfer, LASER RESONATOR MFG.....................: Fanuc, MAXIMUM LASER CAPACITY (WATTS)..........: 2000 watt, MAX. SHEET CAPACITY Y AXIS

Description: Used cnc laser cutting C02 refurbish Bystronic Type: BYSTAR 3015 Sheet: 3000/1500 Power: 4.4 kw Tube cutting Double tables

ADIPEC Awards - Excellence in Energy 2017 Northern Manufacturing & Electronics 2017 Advanced Engineering 2017 UMEX 2017