Wax Ultra 190
Production Grade Oxygen 3D Printer
WAX ULTRA 190 is an industrial oxygen DLP rapid 3D printer with boosted printing speed and high precision. IFUN’s self-developed control system turns each machine into a mini computer, using smarter algorithms to manage every file detail.
- Minimal support needed, smooth surface
- Double the printing speed of anaerobic machines
- 20,000 hours lifespan for the light machine
- Oxygen-permeable film withstands 50W detachments
- Capable of printing 0.01mm thick layers
- Wax Ultra 190 is more stable for mass production , achieving 95% uniformity
4K DLP German optical engine
German imported 4K DLP optical engine ensures the light uniformity of each optical engine. Through the boundary gradient optimization algorithm, pixel patterns and step patterns are eliminated.
large forming size
It can achieve rapid and continuous printing. Its large forming size of 192x108x150 millimeters allows for creating larger models and multiple parts in a single printing job.
precise details
The WAX ULTRA 190 can accurately present the tiny details of jewelry, such as scratches, textures, and gem cuts, making jewelry designs more realistic and exquisite, and perfectly handling the tiniest and sharpest details.
High smoothness
Self-developed motherboard with exclusive operation algorithms. Cooperating with oxygen and having no release force makes the printed surface smoother.
WAX ULTRA 190 Application
How to use wax ultra 190 to print wax models >>
Using a 3D printer to create wax models for jewelry casting involves several steps:
1. Design: The first step is to create a digital 3D model of the jewelry using CAD software. This model should be highly detailed and accurate to ensure the final product meets the desired specifications.
2. Printing: Once the digital model is ready, it is sent to the 3D printer. The printer uses wax filament to build the physical wax model layer by layer, following the exact specifications of the digital design.
3. Finishing: After the wax model is printed, it may require some post-processing to achieve the desired surface finish and details. This may involve smoothing rough edges, refining intricate details, and ensuring the overall quality of the wax model.
4. Casting: The finished wax model is then used in the lost-wax casting process. The wax model is encased in a mold, and then the wax is melted and drained, leaving behind a cavity in the shape of the model. Molten metal is then poured into the cavity to create the final jewelry piece.
5. Finalizing: Once the metal has solidified, the mold is broken, revealing the rough casting. The casting is then cleaned, polished, and finished by a jeweler to achieve the desired appearance and quality.
WAX ULTRA 190 Print Samples
WAX ULTRA 190 3D Printer | Parameters |
Equipment size | 550*550*1400mm |
Building size | 192*108*150mm |
Screen Resolution | 3840*2160px |
Operation mode | 10 inch OLED smart screen |
XY Resolution | ±0.05mm |
Dynamic Layer Thickness | 0.025-0.1mm |
Molding speed | 20~25mm/hour |
Molding method | MSLA |
Light uniformity | 95~97% |
Transmission mode | USB transmission,WIFI,wired network |
The data format | STL,OBJ,SLC |
Voltage | 240V/110V 50Hz |
Power | 250W |
Equipment Weight | 82KG |
Working environment | 20℃-30℃ |
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