Fused Granulate Fabrication

Pellet materials for more solutions

Engineering-grade materials for pellet printing

Fused granulate fabrication is a 3D printing method in which granular plastics are melted and fed through a nozzle onto a platform. The nozzle can be changed to output more or less plastic and at different speeds. These variables can mean faster printing speeds or finer details. After each layer is printed, the printing platform is lowered, allowing the next layer to be added. A supporting structure can be printed when needed.

Post processing of fused granulate fabrication printed pieces allow for a smooth surface. Ideal for large scale applications, fused granulate fabrication printers have been created to print products several meters high, wide and long.

DSM continues to develop industrial thermoplastics to add to our portfolio, creating more solutions for various application needs and requirements.

Three reasons to workwith DSM

Backed by our large engineering materials portfolio

Bringing more than 85 years of application knowledge

Materials ready for industrial production

Product range

Arnite® AM8527 (G)

For tools and large size structural components for varied industries such as automotive and construction.

Arnilene® AM6001GF (G)

Engineering-grade PP optimized for FGF 3D printing                                                                    

EcoPaXX® AM4001 GF (G)

Bio-based PA410 polymer that delivers on performance and sustainability, for structural parts and tooling in the same material as your final parts.

The right material for your application

Materials strong and rigid, or soft and flexible, DSM Additive Manufacturing has a breadth of materials to meet a variety of application needs – with more in development.

Looking to add 3D printing to your business?

DSM and JuggerBot 3D offer two programs for industrial-grade filament and pellet 3D printing applications using high performance materials. 

How can we help?

Contact our experts to discuss how DSM can help you tap into the full potential of additive manufacturing.

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