AEP II
AEP II is the world’s first desktop 3D printer specialized for printing advanced, high-performance functional materials, such as ULTEMTM and PEEK.
AEP II also provides a printing solution for engineering plastics with various mechanical strength and thermal properties, such as PLA, ABS, PET, etc.
AEP II provides a solution for rapidly changing market needs (high strength, abrasion resistance, chemical resistance, high temperature, etc.) by shortening design,/verification cycles to give simplified operation procedures for research/development/manufacturing.
AEP II provides an innovative solution for prototyping and manufacturing in various high-tech industries, such as aerospace, defense system, automotive, medical, chemical, and mechanical parts building.
Applications
Automotive Robotic Field
Reduces costs and manufacturing lead times from concept modeling.
Simplified manufacturing procedures with reduced weight and numbers of parts involved.
Freedom to design and innovate without penalties.
Increased profitability through compressed production schedules of customized parts manufacturing in jigs, tools, and spare parts.
Manufacturing Field
Valuable addition to manufacturing of various small parts and customized tools at a lower price than machining.
Rapid release of competitive new products by modifying the prototype with a shortened design cycle.
Reduces cost and time for prototype testing and validation compared to mold repurposing.
In-house manufacturing to reduce the risk of intellectual property theft.
Defense/Aerospace/Drone Field
Able to test new designs for durability and hard real-world conditions.
Reduced fuel cost and increase carrying capacity through manufacturing parts with lightweight and high-strength materials.
Reduced time for the manufacture of internal parts (ducts, housings, etc.) and tools in the aviation sector.
Medical Field
Enables customized and rapid modeling that reproduces human tissue characterizations and pathologies.
Reduced time and cost to produce precise and versatile medical device prototypes.
Enables efficient surgical planning and modeling through patient- specific 3D modeling.
Special Features
Door sensor – For user’s safety and print quality, the sensor pauses the print when the door is opened
Smart auto-leveling – Smart auto-leveling ensures convenience in print preparation and better quality of print.
7” LCD touch screen – Increase user friendliness
Android OS – Increase user friendliness
Wireless Connection – Enables connection to laptop with and without cable
Software – Supports specialized integration with all ROKIT printers
Chamber Heater – Decreases lead time for pre-heating and chamber temperature equalization
Interchangeable Extruder – User can change the extruder nozzle easily through a slight-insert mechanism
Special nozzle coating
Filament Warmer – Removes humidity
Build Volume – 230mm x 200mm x 200mm
Category |
Specification |
Printing Method |
Fused Filament Fabrication (FFF) |
Build Volume |
230mm x 200mm x 200mm *may be different depending on material and shape |
Printing Speed |
10 ~ 30mm/sec (recommended), Max 60mm/sec *may be different depending on material and shape |
Resolution |
XY 6μm / Z 2.5μm |
Supporting File Type |
STL, OBJ, AMF |
Supporting OS |
Above Windows & (mac is not supported) |
Auto-leveling |
O |
Door Sensor |
O |
Pause/Resume |
O |
Material change while printing |
O |
Filament Warmer |
Humidity Control |
Chamber Heater |
O |
Printer Size |
540mm x 410mm x 810mm |
Nozzle Type |
Single, 0.4mm |
Interface |
WiFi/ USB 2.0 memory card/USB 2.0 cable |
Extrusion Temperature |
~400 °C |
Bed Temperature |
~106 °C |
Top Bed Temperature |
~100 °C |
Printable Material |
ULTEM 9085, ULTEM 1010, PEEK, PLA/ABS/PET |
Extrusion Set (option) |
Interchangeable, ULTEM 9085, ULTEM 1010, PEEK, PLA/ABS/PET |
Power |
100-220VAC (free) 50/60Hz 8.0A |
LCD |
7 inch (1260 x 800) Color LCD touch screen |
Certification |
KC, CE, FCC |