Despite the low carbon fiber loading of 10% – much lower than other carbon filled materials – it produces functional prototyping and industrial parts with properties close to what is usually achievable only by injection molding while matching the easy and fast printing of unreinforced plastics.
DSM Vice president of Additive Manufacturing, Hugo da Silva said:
“ Fused Filament Fabrication technology (FFF) is growing rapidly, for use in both prototyping and industrial applications. With high-performance materials like our new carbon fiber filament, manufacturers can take it into many more applications like functional prototyping as well as durable and structural industrial parts for harsh environments.”
Filled with only 10% of actual carbon fiber – much lower than most carbon filled materials – Novamid ID1030 CF10 3D is designed for printing structural parts which are clearly stronger, stiffer and tougher with higher tensile strength and modulus, high dimensional stability and free of warpage.
These mechanical properties and smooth appearance make it ideal for a very broad range of applications that require robust performance possibly at elevated temperatures such as automotive under-the-hood, protective and supporting sports gear; manufacturing jigs and fixtures; medical braces and prosthetics. It’s also a go-to-material for light weight applications across various vertical markets.
The material can be printed on standard desktop fused filament fabrication (FFF) machines with a hardened nozzle. Tests have shown that users can run their printers at the same speeds as with unreinforced plastics, while achieving considerably better strength and toughness.
Novamid ID 1030 CF10 has been tested on several open FFF platforms, including on GermanRepRap and the new Ultimaker S5.
Technologies: Other Processing Method