How to remove 3D Metal Prints from the Bed?
How to remove 3D Metal Prints from the Base Plate?
How to remove the printed metal support from 3D Metal Printed parts?
How to cut off the 3D printed metal part from the machine base plate?
Novick Europe has released the Novicut-M AM3D-removal line, an affordable wire EDM specific to remove the base plate from 3D metal printing applications.
This model is the latest addition to Novick’s M range of versatile economical wire EDM machines. As the capacity of additive machines continues to increase, it becomes increasingly important for wire EDM offerings to continue to accommodate the growing baseplate and support sizes, Novick says. With a 300 till 500-mm Z-axis stroke, the Noviform-M-3d is suited for the postprocess removal of 3D-printed parts, as well as the production of large molds and aerospace components.
Like other models in the series, the WEDM offers an improvement to the company’s patented molybdenum re-usable wire technology.
With this machine an affordable solution becomes available for every additive manuafacturer.
Advantages of our system:
2D, 3D, 4D, 5D cutting possible
Non contact cutting
No single force is applied on the part
cutting wide is 0.2mm
High precision cutting
cutting off the parts from the base plate with only 0.2 mm losses (less printing height)
Possible to mount multiple baseplates on the machine for long run
Very low cutting cost (reusable molybdenum wire
Different models and dimension available
High tech for a low price
Possible to cut-off in Real 3D the support structures at a precison of 10µm
Possibility of C-axis for real 5d contour cut
Low maintenance cost.
Accept cad files
TOOL STEEL (MS1 - 1.2709)
STAINLESS STEEL (PH1 - 1.4540)
STAINLESS STEEL (1.4542)
STAINLESS STEEL (1.4404)- 316L
STAINLESS STEEL (CX) - CORRAX
Maraging STEEL MS1 1.2709
STEEL-NICKEL (INVAR 1.3912)
ALUMINIUM (3.2371 | AlSi7Mg)
Hastelloy X® (2.4665)
COBALT CHROME (COCRW)
COBALT CHROME (COCR75)
NICKEL Based (NI718)
NickelAlloy IN718 / 2.4668
NickelAlloy HX / UNS 06002
TIANIUM GR. 1 (3.7025)
TITANIUM GR. 5 (TI6AL4V – 3.7164)
TITANIUM GR. 23 (TI6AL4V – 3.7165 ELI)
ZINK (ZAMAK 5)
COPPER - INDUCTORS
COPPER-ALUMINIUM (2.0921 | CuAl8)
DMLS, Direct Metal Laser Sintering, Rapid Prototyping, Metal powder bed fusion, SLS, Selective Laser Sintering, SLM, selective laser Melting, DMP, Direct metal printing, DIRECT METAL PRINTERS (DMP), FUSED DEPOSITION MODELING (FDM) PRINTERS, LARGE PLATFORM FUSED DEPOSITION MODELING PRINTERS, SELECTIVE LASER SINTERING (SLS), metal 3d printing, 3d metal printing, metal am, metal additive manufacturing, 3d additive manufacturing, EBM, electron beam melting, cuttof base plate, cut off metal support structures, laser cusing, 3D Metal Melting, metallic 3D printing (M3DP), Laser Wire 3D Printing, metallic 3D printing (M3DP), M3DP, wire and arc additive manufacturing (WAAM), WAAM, AM technology, metal AM, metal additive manufacturing (MAM), Directed Energy Deposition (DED) , Laser Metal Deposition (LMD), directed energy deposition (DED), powder-bed fusion (PBF), Joule Printing, Metal 3D Printing, Laser Metal 3D Printing, Large Additive Subtractive Integrated Modular Machine, FDM - Fused Deposition Modelling, Laser Beam Powder Bed Melting, LBM , Laser Beam Melting,