

Filament Maker TWO
Designed for Research, Recycling, and Filament Production
An intelligent filament extrusion system that integrates sensing, heating, pulling, and winding to deliver stable output with minimal manual adjustment.
Bring material processing in-house for faster development and repeatable production.
How It Works
See how filament is produced, from initial setup to the finished spool.
Process a Wide Range of Polymers
Compatible with a broad range of thermoplastics, supporting material development, validation, and application-specific production.

Recycled & Common Polymers
- PET
- PLA
- PP
- HDPE
- PETG
- ABS
- PS
- LDPE
- PC
- PHB

Engineering Polymers
- TPU
- POM
- PA6
- PVA
- TPE
- PCL
- PA66
- PA
- ASA
- PA12

High-Performance Polymers
- PEEK
- PEI
- PSU
- PEKK
- PPSU

Recycled & Common Polymers
- PET
- PLA
- PP
- HDPE
- PETG
- ABS
- PS
- LDPE
- PC
- PHB

Engineering Polymers
- TPU
- POM
- PA6
- PVA
- TPE
- PCL
- PA66
- PA
- ASA
- PA12

High-Performance Polymers
- PEEK
- PEI
- PSU
- PEKK
- PPSU
Additive and Composite Materials
Process a broad range of additives and composite formulations to develop advanced, application-specific materials.
-
Carbon fiber -
Ceramic powder -
Chemical additives -
Metal powder -
Wood
-
Glass fiber -
Nanoparticles -
Blends of polymers -
Biodegradable polymers
-
Carbon fiber -
Ceramic powder -
Chemical additives
-
Metal powder -
Wood
-
Glass fiber
-
Nanoparticles -
Blends of polymers -
Biodegradable polymers
Fits the Way You Work

Independent Material Validation
Evaluate materials, analyze extrusion behavior, and optimize processing conditions for consistent results.

Integrated Recycling Solutions
Works with shredding and drying systems to recycle in-house polymers and support circular material workflows.

Scalable Production Workflows
Ideal for production environments requiring stable output, long runs, and consistent quality.

Independent Material Validation
Evaluate materials, analyze extrusion behavior, and optimize processing conditions for consistent results.

Integrated Recycling Solutions
Works with shredding and drying systems to recycle in-house polymers and support circular material workflows.

Scalable Production Workflows
Ideal for production environments requiring stable output, long runs, and consistent quality.
Low-Maintenance, High-Uptime Design
The split housing design enables quick access for maintenance, material changes, and troubleshooting to maximize uptime.
- Quick screw removal for cleaning between runs and monitoring material behavior such as melting, dispersion, or degradation
- Faster troubleshooting through direct visibility and access to internal components
- Efficient material switching to support iterative workflows and minimize downtime between runs
- Accessible component design, including insulation sleeve, die head, and nozzle, for straightforward maintenance

Low-Maintenance, High-Uptime Design
The split housing design enables quick access for maintenance, material changes, and troubleshooting to maximize uptime.
- Quick screw removal for cleaning between runs and monitoring material behavior such as melting, dispersion, or degradation
- Faster troubleshooting through direct visibility and access to internal components
- Efficient material switching to support iterative workflows and minimize downtime between runs
- Accessible component design, including insulation sleeve, die head, and nozzle, for straightforward maintenance
Live Monitoring and Process Control
Continuously monitor and control the extrusion process to ensure stable performance and reliable filament production.
- High-speed 3-axis filament sensor (10μm resolution, > 25 measurements per second), measuring for filament ovality
- Real-time data logging + remote access, using the InfluxDB software
- Infrared thermal camera measuring the filament surface temp before it reaches the puller wheels, ensuring consistent filament quality, especially for high-temp materials
- Automatic spool fullness detection

Live Monitoring and Process Control
Continuously monitor and control the extrusion process to ensure stable performance and reliable filament production.
- High-speed 3-axis filament sensor (10μm resolution, > 25 measurements per second), measuring for filament ovality
- Real-time data logging + remote access, using the InfluxDB software
- Infrared thermal camera measuring the filament surface temp before it reaches the puller wheels, ensuring consistent filament quality, especially for high-temp materials
- Automatic spool fullness detection
One System, Total Control
An integrated control system synchronizes sensing, heating, pulling, and winding for faster, more stable production with minimal manual adjustment.
- Touchscreen interface with direct access to parameter controls and real-time system feedback
- Variable puller tension to accommodate different materials and maintain filament consistency
- Spool chuck design for faster loading and reduced setup time
- Up to 3 kg spool capacity to support longer, uninterrupted runs

One System, Total Control
An integrated control system synchronizes sensing, heating, pulling, and winding for faster, more stable production with minimal manual adjustment.
- Touchscreen interface with direct access to parameter controls and real-time system feedback
- Variable puller tension to accommodate different materials and maintain filament consistency
- Spool chuck design for faster loading and reduced setup time
- Up to 3 kg spool capacity to support longer, uninterrupted runs
Flexible Platform Configuration
Designed for flexibility, the modular platform supports evolving workflows through configurable setups, broad material compatibility, and easy system integration.
- Continuous firmware updates to improve performance and extend system capabilities over time
- Continuous firmware updates to improve performance and extend system capabilities over time
- Open integration capabilities for connecting with external systems and data environments
- Support for custom attachments, including feeders, mixers, and additional components
- Modular add-ons developed in collaboration with the 3devo R&D team

Flexible Platform Configuration
Designed for flexibility, the modular platform supports evolving workflows through configurable setups, broad material compatibility, and easy system integration.
- Continuous firmware updates to improve performance and extend system capabilities over time
- Continuous firmware updates to improve performance and extend system capabilities over time
- Open integration capabilities for connecting with external systems and data environments
- Support for custom attachments, including feeders, mixers, and additional components
- Modular add-ons developed in collaboration with the 3devo R&D team
Precision Control for Consistent Processing
Precisely control key extrusion parameters to optimize material behavior and ensure consistent processing across a wide range of materials and applications.
- Near-zero RPM fluctuation enabled by a powerful extruder drive system, supporting steady material flow and uniform output
- Extended screw design for improved melt behavior, with options for mixing, precision, or custom configurations
- Temperature control across multiple heating zones for reliable processing across different materials
- Cooled hopper with temperature monitoring to preserve material integrity before extrusion
- Material and spooling presets to streamline setup and reduce variability between runs

Precision Control for Consistent Processing
Precisely control key extrusion parameters to optimize material behavior and ensure consistent processing across a wide range of materials and applications.
- Near-zero RPM fluctuation enabled by a powerful extruder drive system, supporting steady material flow and uniform output
- Extended screw design for improved melt behavior, with options for mixing, precision, or custom configurations
- Temperature control across multiple heating zones for reliable processing across different materials
- Cooled hopper with temperature monitoring to preserve material integrity before extrusion
- Material and spooling presets to streamline setup and reduce variability between runs
| TECHNICAL SPECIFICATIONS | ||
|---|---|---|
| SIZE AND WEIGHT | ||
| Dimensions | 606 × 258 × 526 mm (23.8 × 10.1 × 20 in) | |
| Weight | 42 kg (92 lb) | |
| EXTRUSION DRIVE | ||
| Max. torque | 40 Nm | |
| RPM | 0 – 15 RPM | |
| HOPPER SYSTEM | ||
| Volume | 2.6 L | |
| Active cooled | Yes | |
| BAND HEATERS | ||
| Max. Temperature | 450 °C | |
| Heating zones | 4 | |
| Heater power | 230W per zone | |
| COMPRESSION SCREW | ||
| Screw Material | High Chromium and Molybdenum steel alloy | |
| Hardening treatment | Nitrided | |
| Compression | 3 stages | |
| Screw Type | Interchangeable | |
| Compression Ratio | 2,25 | |
| L/D ratio | 17,75 | |
| FILAMENT SENSOR | ||
| Type | Optical | |
| Resolution | 10 µm | |
| Framerate | 5 fps | |
| Measurements | > 25 per second | |
| Measurements axis | 3 | |
| Thermal sensor | Yes | |
| PULLER | ||
| Low Temp High Grip Max. | 100 °C | |
| High Temp Nonstick Max. | 380 °C | |
| Puller Tensioner | Adjustable | |
| SPOOLING | ||
| Max. Spool diameter | 300 mm (11.81 in) | |
| Spool Inner diameter | 49 - 55 mm (1.92 - 2.16 in) | |
| Max. Spool width | 100 mm (3.93 in) | |
| Max. Spool weight | 3 kg (6.6 lb) | |
| Automatic tensioner | Yes | |
| Friction wheel | Yes | |
| Spooling system | Self tightening spool holder | |
| ENERGY | ||
| Consumption average | 300 – 400 W | |
| Consumption Max. | 1300 W | |
| Voltage | 230 V or 110 V | |
| Frequency | 50 – 60 Hz | |
| CONNECTIONS | ||
| CAN-bus | 2 ports | |
| Networking | Ethernet | |
| Power plug | Schuko male to C13 | |
| USB | USB - B | |
Start printing your own metal parts today
Talk to our experts via Online consultation and request for a demo

