Funmat Pro 410

Mid-Size Industrial 3D Printer for Engineering and Production Environments

The FUNMAT PRO 410 is a mid-sized industrial 3D printer, which provides organizations with high-performance material performance, controlled thermal printing and production-grade reliability without the size and infrastructure demands of large-format systems.

The PRO 410 is positioned to be the most flexible system within the FUNMAT line, and provides volume, thermal benefits and economical means to suit functional prototyping, tooling, jig and fixtures, and low-volume end-use production.

Supplied and supported in the Northeast United States by AlphaAMT, the FUNMAT PRO 410 is delivered by our team as a complete industrial solution with local installation, training, and on-site application engineering support.

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Where the PRO 410 Fits in the FUNMAT Platform

Under the FUNMAT industrial platform of INTAMSYS, the PRO 410 falls under the size category of mid-size industrial systems that cover the gaps between small engineering printers and large-scale production systems.

It is designed for manufacturers who need:

Controlled thermal environments for engineering polymers
Reliable, repeatable output for daily operation
A smaller footprint suitable for labs, production cells, and factory floors

The PRO 410 has the best balance of capability, scalability and overall cost of ownership for many organizations.

Engineered for Engineering Polymers and Composites

The FUNMAT PRO 410 is designed to work with a wide variety of engineering-grade and high-performance materials, which are supported by high-temperature extrusion and a controlled build environment.

Supported material classes include:

High-Performance Polymers

PEEK, PEEK-CF, PEEK-GF
PEKK, PAEK (AM200), PPS.

Fiber-Reinforced Composites

Carbon fiber–filled materials
Glass fiber–filled materials

Engineering Plastics

PC, ABS, PC-ABS, ASA

This material versatility allows engineering teams to move from prototype to functional validation and into low-volume production using a single industrial platform.

PEEK 3D Printing with Controlled Thermal Stability

PEEK is among the most demanding thermoplastics in additive manufacturing. The high melting point and the presence of a very narrow processing window make it sensitive to temperature and moisture changes.

The PRO 410 addresses these challenges with an advanced thermal architecture, including :

Dual-nozzle print heads up to 500 °C
Heated chamber up to 90 °C
Heated build plate up to 160 °C
Uniform chamber heating to reduce thermal gradients

These conditions improve dimensional accuracy, interlayer adhesion, and mechanical consistency across repeated builds.

To achieve consistent production of PEEK, the PRO 410 supports a PEEK-specific ceramic microcrystalline glass build plate to promote the adhesion of the first layer and minimise warping. Maximum PEEK build size reaches 305 × 305 × 406 mm, ideal for mid-size functional components.

Advanced Thermal Design for High-Temperature Materials

The PRO 410 integrates a high-temperature, high-power dual-nozzle extrusion system and a controlled heated environment to support consistent processing of PEEK and related polymers.

Key thermal capabilities include:

Dual-nozzle print heads up to 500 °C
Heated chamber up to 90 °C
Heated build plate up to 160 °C
Uniform chamber heating to reduce thermal gradients

These conditions improve dimensional accuracy, interlayer bonding, and mechanical consistency across repeated builds.

Optimized Build Surface for PEEK Production

For applications requiring reliable PEEK output, the PRO 410 supports a PEEK-specific ceramic microcrystalline glass build plate.

This surface:

Enhances first-layer adhesion
Reduces warping during long print cycles
Supports production-quality surface finish

With a maximum PEEK printing size of 305 × 305 × 406 mm, the PRO 410 enables mid-size PEEK components without the need for large-format infrastructure.

Controlled Printing for Repeatable Results

Engineering polymers demand consistent thermal conditions throughout the print cycle. The PRO 410’s enclosed, temperature-controlled build environment:

Improves dimensional stability
Reduces print failures caused by thermal fluctuation
Supports repeatable mechanical properties across batches

This renders the system applicable not only to prototyping, but also to tooling and low-volume production processes.

Superior Surface Finish on Complex Geometries

The FUNMAT PRO 410 features dual-nozzle 3D printing, enabling advanced support strategies for complex parts.

Support options include:

Water-soluble support materials for internal channels and complex piping
Easy-breakaway supports for faster post-processing without surface damage

The capabilities enhance the quality of surfaces, limit manual clean-ups and allow geometries which are hard or impossible to machine in conventional methods.

Designed for Reliable, Long-Duration Operation

To maintain print quality over extended production cycles, the PRO 410 incorporates a sealed dry filament chamber with:

Built-in reusable molecular sieve
Real-time humidity monitoring
Automatic filament feeding

This system provides 30 days of uninterrupted high-quality printing, especially when dealing with materials that are sensitive to moisture (e.g. PEEK or a composites made of nylon).

Operator-Focused Reliability Features

The PRO 410 also includes intelligent features designed to reduce operator intervention and scrap rates:

Automatic bed leveling for consistent first layers
Nozzle clogging detection and alarms
Filament runout warnings
Self-cleaning printhead functionality

These features improve uptime and make the system practical for daily use in engineering and production environments.

Open-Material Compatibility for Cost Efficiency

The FUNMAT PRO 410 supports open material workflows and is not locked to proprietary filament ecosystems. Manufacturers can select and use filaments based on their performance needs, availability and cost.

This flexibility:

Reduces long-term operating costs
Improves supply-chain resilience
Enables application-specific material optimization

AlphaAMT also assists with material qualification and process tuning, ensuring open-material flexibility does not compromise quality or repeatability.

Software and Process Control

The PRO 410 is supported by INTAMSUITE NEO, an advanced slicing and process management platform that provides:

Automated model repair and slicing
Intelligent path-planning algorithms
Remote monitoring and print optimization

This comprehensive software supports consistent, repeatable workflows across prototyping and production use cases.

Delivered and Supported by AlphaAMT

AlphaAMT provides full lifecycle support for the FUNMAT PRO 410, including:

Application and material consultation
Professional installation and commissioning
Operator and maintenance training
On-site troubleshooting and service
Ongoing application engineering support

Our expert hands-on support ensures the system performs reliably in real manufacturing environments.

Evaluate the FUNMAT PRO 410 for Your Application

If your operation requires a mid-size industrial 3D printer capable of processing engineering polymers and composites with repeatable, production-grade results, the FUNMAT PRO 410 offers a proven solution.