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Additive Manufacturing

Arnilene® AM6001 GF (G)

Popular for its thermal, mechanical and chemical performance, polypropylene (PP) is the second most used polymer worldwide in traditional manufacturing. Despite broad adoption of 3D printing, no PP has been optimized for additive manufacturing. DSM has now filled the gap with Arnilene® AM6001 GF (G).
Arnilene® AM6001 GF (G)

For low volume or decentralized production, direct printing using additive manufacturing can decrease cost since tools are no longer needed. Additive manufacturing also allows for more design freedom and customized parts. Automotive, industrial or infrastructure manufacturers looking to utilize PP in their additive manufacturing processes had difficulties finding a material with the typical thermal, mechanical and chemical performance, while also printing smoothly.

DSM’s new Arnilene® AM6001 GF (G) now offers a PP that has been optimized for fused granulate fabrication 3D printing. While unleashing the full potential of the intrinsic material behavior, so critical for building structural parts, this engineering grade thermoplastic prints smoothly and fast.

DSM material scientists developed Arnilene® AM6001 GF (G) by combining the same base as material used in high volume production with expertise on simulation tools (CAE), Design for Additive and material printing, then worked with equipment partners to optimize the material for FGF printing. The material’s low carbon footprint, due to the reduced energy consumption, and its low LCA, inherent to the PP’s chemistry, makes it a sustainable solution.

Key Benefits

  • Low temperature tooling
  • Applications requiring continuous use temperature (CUT) up to 130dC
  • Structural, rigid or strong parts
  • Applications for water, humid environments
  • Hydrophobic applications
  • Lightweight design and metal replacement requiring impact resistance
  • Automotive applications with mechanical properties (roof and side beams, under the hood)
  • Infrastructure and water management (sewage manholes, tooling, pipelines)


  • Mechanical performance
    • High impact strength
    • Good mechanical profile
    • Printed parts demonstrate excellent z-strength, fatigue and impact resistance
  • Temperature capability: High HDT of 135°C
  • Chemical resistance
  • Printability
    • Easy processing on various FGF printers
  • Post Processing
    • Easy machining, milling
  • Low LCA (due to the polymer inherent chemistry)