HOME 3D PRINTING TECHNOLOGY
PLATYPUS X2
INDUSTRIAL REVOLUTION
PLATYPUS X2 is at the forefront of the fourth industrial revolution. Complete for reliable and quality results in projects both large and small. Powered with an advanced software package and the TURISOPS proprietary extruding mechanism, this printer can construct profiles with complex geometries of up to 2 metre in height and width, including unlimited length.
The robust design ensures smooth printing processes with highly accurate layer binding. The PLATYPUS X2 is able to print large and small structural components for vast possibilities in design.
This enables emerging architects to validate challenging concepts. It also enables small and large builders to optimise their operations to compete for more geometrically demanding projects while remaining financially feasible. PLATYPUS... levels the playing field.
UNMATCHED PRECISION
Certified Australian Made Product
Designed by Robotics and Aerospace Engineers
Top Australian and International Standards
IP67 Rated
MANUFACTURED BY LUYTEN
PLATYPUS X2 SPECIFICATIONS
The first additive manufacturing solution to produce high quality concrete structures with guaranteed cost reduction, increased precision and reduced errors.
PRINT HEIGHT: | 2000mm |
PRINT WIDTH: | 2000mm |
PRINTING SPEED: | 60mm/s |
LAYER HEIGHT: | Up to 40mm |
LAYER WIDTH: | Up to 40mm |
MOVEMENT SYSTEM: | Stepper Motor |
SET UP TIME: | 20min |
UNASSEMBLY TIME: | 20min |
MANNING: | 2 Operators |
INTERFACE: | Control panel/Pendant |
SLICER SOFTWARE: | LUYTEN |
POWER SUPPLY: | 1 phase 230v 50Hz |
POWER USAGE: | 2 KW |
INGRESS PROTECTION: | Up to IP67 |
PRINT LENGTH: | Customisable |
PLATYPUS X2 IS ITS OWN MANUFACTURING CENTRE
PLATYPUS X2
-
Dynamic and reliable
-
Robust rugged IP 67 rated
-
High precision and repeatability
-
Convenient on-site setup and operation
-
2 metres height, 2 metres width
TRADITIONAL CONSTRUCTION COMPARED TO 3D CONCRETE PRINTING.
TRADITIONAL
-
Formwork that total 60% of overall costs
-
High levels of cement (high CO2 footprint)
-
Reliance on rebars for strength
-
High logistical cost for prefab components
3D PRINTING
-
Complex geometry without formwork
-
Reduction of cement use (low CO2 footprint)
-
Replace rebars with sustainable strengthening agents
-
Low logistical cost through onsite printing
