- Stock: In Stock
- Product code: 00-00014451
Industrial 3D Printer INTAMSYS FUNMAT HT
Intamsys Funmat HT is a high-temperature industrial FFF 3D printer with a build volume of 260 × 260 × 260 mm, designed for working with engineering and high-temperature polymer materials. The printer is equipped with an extruder with a maximum temperature of 450 °C, a heated bed up to 160 °C, and an enclosed chamber with a temperature up to 90 °C. The device is intended for use in laboratories, research centers, and production workshops.
Design Features and Functionality
Heat-resistant printing system. The printer is equipped with a fully metal hotend, ensuring work with high-temperature materials.
Automatic bed leveling. The Auto-leveling system simplifies platform setup and printer preparation for printing.
Ceramic glass platform. The working surface Ceramic Glass Plate with magnetic fixation is easy to install and remove for maintenance.
Filament end sensor. Automatically pauses printing in case of material absence or breakage.
Monitoring and control. Control is carried out via a 3.2-inch touchscreen display. Remote video monitoring of the printing process is supported.
Safety. The design includes an enclosed chamber, overload protection, and warning labels on the body.
Supported Materials
Thanks to the high technical characteristics of the heating system, the 3D printer supports working with a wide range of filaments.
- High-temperature polymers: PEEK, PEEK-CF, PEEK-GF, PEKK.
- Structural and engineering plastics: PA, PA-CF, PC, ABS, ASA.
- Basic materials for prototyping: PLA.
Application Examples
Skull Implant
Product material — PEEK. It is an alternative to traditional titanium plates.
Advantages of application:
- High biocompatibility. The physical and mechanical properties of PEEK polymer are close to the characteristics of human bone tissue, promoting implant integration into the body and reducing the risk of rejection.
- Hypoallergenic and stable. The material is chemically inert, not prone to corrosion, and does not cause allergic reactions.
- Low thermal conductivity. The material is less responsive to environmental temperature changes compared to metals, enhancing patient comfort.
- No artifacts during MRI and CT. Unlike metal implants, PEEK does not create interference and distortions during diagnostic studies.
Oil Pump Gear
Product material — PEEK. It is an alternative to the original metal gear.
Advantages of application:
- Chemical resistance and no corrosion. The material is resistant to automotive oils, fuels, and other technical fluids, does not corrode, and retains its properties in aggressive environments.
- Fire resistance. PEEK is characterized by high thermal resistance and self-extinguishing capability, allowing its use in assemblies with increased fire safety requirements.
- Low friction coefficient and high fatigue strength. The material ensures smooth operation of moving mechanisms and withstands prolonged cyclic loads without losing performance characteristics.
- High wear resistance. The polymer effectively resists mechanical wear and abrasive impact, maintaining the accuracy of the part's geometry over time.
Flight Simulator Control Handle
Product material — ABS-PC. It is an alternative to aluminum alloy parts.
Advantages of application:
- Strength and thermal resistance. The ABS-PC composite combines the impact strength of ABS and the increased thermal resistance of polycarbonate, allowing the production of durable functional parts for trainers and simulators.
- Cost-effectiveness of production. 3D printing with ABS-PC significantly reduces costs compared to manufacturing similar parts from aluminum alloys.
- Fast production. Additive manufacturing technology allows for the rapid creation of finished products and quick modifications during the development or upgrade of a product.
- Optimal weight-to-strength ratio. The part is lighter compared to metal counterparts, while maintaining sufficient rigidity and resistance to mechanical loads.
Technical Specifications
| Parameter | Value |
| Printing Technology | FFF |
| Chamber Type | Enclosed |
| Number of Nozzles | 1 |
| Max. Number of Spools | 1 piece up to 1 kg |
| Filament Diameter | 1.75 mm |
| Standard Nozzle | 0.4 mm |
| Supported Nozzles | 0.25 / 0.6 / 0.8 mm |
| Layer Thickness | 0.1 – 0.5 mm |
| Max. Nozzle Temperature | 450 °C |
| Max. Bed Temperature | 160 °C |
| Max. Chamber Temperature | 90 °C |
| Max. Printing Speed | 120 mm/s |
| Max. XY Travel Speed | 200 mm/s |
| Working Surface | Ceramic glass plate with magnetic fixation |
| Max. Build Volume | 260 × 260 × 260 mm |
| Platform Calibration | Automatic and manual |
| Resolution | XY: 15.6 µm; Z: 1.56 µm |
| Filament Control | Filament end sensor |
| Remote Monitoring | Yes |
| Display | 3.2" touchscreen |
| Software | INTAMSUITE™ |
| Supported File Types | .stl, .obj, .x3d, .3mf, .stp, .iges |
| Compatible Operating Systems | Windows |
| Connection Interfaces | USB, SD card |
| Max. Power | 1200 W |
| Input Voltage | 200–240 V / 7 A, 50/60 Hz |
| Drive System | High-performance standalone driver |
| External Model Cooling | Fan cooling |
| Safety Features | Overload protection, enclosed chamber, warning labels |
| Certification and Standards | CE, FCC, SGS, EN60204 |
| Operating Temperature / Humidity | 15 °C ~ 32 °C / 30 ~ 70% |
| Storage Temperature / Humidity | 0 °C ~ 54 °C / 10 ~ 85% |
| Device Dimensions | 543 × 501 × 645 mm |
| Device Weight | 63 kg |
Ordering the 3D Printer and Selecting Materials
Place your order online or contact us for consultation. We will help you choose the optimal solution for production, laboratory, or research center. Delivery is carried out across Ukraine.
