DSM Arnitel 2060-HT High Temp TPC Filament - Black - 2.85mm

DSM

Arnitel® ID2060 HT is the first high performance TPC FFF material combining flexibility with prolonged high temperature use as well as chemical resistance and strength. This combination makes it suitable to print cold charge air ducts for demanding automotive under the hood applications as well as components for end-of-arm tooling. Parts printed can resist sustained high-temperature of 175°C (1000 hrs) or 190°C (500 hrs) and chemicals such as EGR condensate. 

Possible applications

  • Air-fuel management systems, engine shields for automotive 

  • Gaskets and seals for automotive

  • Aluminium & rubber replacement for light weighting applications in automotive under the hood

  • Tubes for home appliances

Key Benefits & Properties

  • Hardness of Shore D 61 
  • First high temperature TPC filament on the market

  • A unique balance of flexibility, sustained high temperature and chemical resistance 

  • Prolonged high temperature performance: 175°C (1000 hrs), 190°C (500 hrs)

  • Excellent chemical resistance against EGR condensates

 3d filament net weight NET WEIGHT: 0.5 KG (1.1 LB)

3d printing temperature guideline Printing
Temperature:

Notes:

220°C - 245°C
  • Heat bed: ± 80 - 120° C
  • Nozzle size: ≥ 0.25mm
  • Layer height: ≥ 0.1mm
  • Print speed: Low / Medium
  • Fan speed: 0%
  • Flow rate: ± 100%
  • Retraction: No
  • Printing surface: PEI Sheet
  • Experience level: Expert
  • Enclosed printer needed: Preferred
  • Heated Build Chamber: Preferred

*) Above displayed settings are meant as guidance to find your optimal print settings. These ranges in settings should work for most printers, but please do feel free to experiment outside these ranges if you think it is suitable for your printer. There are a lot of different type of printers, hot-ends and printer offsets that it is extremely difficult to give an overall one-size-fits-all setting.

*) First layer : 100 - 150% of first layer thickness.

* Print speed: 20 - 50 mm/s (obeying the maximal throughput in cm3/s of the extruder)

*)  Do only remove printed object from print bed when print bed has cooled down to ambient temperatures, as otherwise printed part can deform severely.