Arnite® AM2001 GF (G) recycled PET

Glass-fiber filled post-consumer recycled PET

High structural performance. Lower carbon footprint

Arnite® AM2001 GF (G) rPET, a glass-fiber filled recycled PET (rPET) for 3D pellet printing, offers manufacturers structural performance with a lower carbon footprint than virgin material. Manufacturers can now make their supply chain more circular without the need to compromise on performance.

The recycled PET has been optimized for 3D pellet printing/fused granulate fabrication (FGF), which allows for fast and economically viable additive manufacturing of large-size parts. Direct printing of applications lowers cost by reducing product development time. Plus 3D printing allows design flexibility, which can help reduce material cost. By only using what is needed, additive manufacturing offers the possibility to produce more sustainably.

Made from post-consumer PET waste, this material combines strong mechanical properties with a significantly lower carbon footprint than virgin material. These mechanical properties and broad processing window make the material ideally suited for structural applications across a variety of industries.

The introduction of this high-performing material for 3D pellet printing is an important step in creating circular supply chains. With PET packaging accounting for more than 50% of total plastic waste, extending its lifetime by re-using it as feedstock offers a broadly available alternative to virgin raw materials – without the need to compromise on performance or total cost of ownership!

(Image: Chair design: Michiel van der Kley)

Applications

  • Structural applications
  • Infrastructure
    • Foot bridges
    • Cyclist or pedestrian tunnels
  • Architecture
    • Cladding, partition walls
    • In- and outdoor furniture
    • Floor tiles
  • Small, recreational boats
  • Packaging crates and pallets
  • Tooling

Product Features

  • Glass filled formula with improved mechanical properties
  • Made from post-consumer PET waste
  • Reduced product environmental footprint
  • UV stabilized for outdoor performance
  • Broad processing window for consistent printing and higher yield
  • Easy post-treatment/processing
  • Extended product lifetime vs. traditional manufacturing 

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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