New generation of conductive engineering plastics with Aros Graphene®
Graphmatech scientists achieved world record values for conductive engineering plastics which has at least 100 times lower resistivity than achieved before in filaments for 3D printing. The 3D-printing technology of the ultra-conductive material Aros Graphene® could revolutionise the way we use multifunctional materials and manufacturing technologies.
Graphmatech, award-winning materials startup part of InnoEnergy Highway®, has good news to share at Hannover Messe. Just in time for the fair Graphmatech scientists achieved world record values for conductive engineering plastics which has at least 100 times lower resistivity than achieved before in filaments for 3D printing. This is a further milestone in the success story of Graphmatech that began with the founding in 2017, led to the patented technology and material Aros Graphene®, great collaborations with Swedish, Swiss and German key industries and an award as Nanotech company of the year in the Nordics in 2018.
The recently measured world record values built upon a scalable and cost-efficient process for coating polymer granular and powder with Aros Graphene® for obtaining high-quality dispersion, that Graphmatech announced last summer. It made possible to develop a well-dispersed solution for Aros Graphene® in plastics. This process is considered as a compounding step before extruding filaments for 3D-printing or injection molding. The developed process can be also used for coating polymer granular/powder with other types of additives such as metals, oxides, ceramics, fibers, etc.
The 3D-printing technology of the ultra-conductive material Aros Graphene® could revolutionise the way we use multifunctional materials and manufacturing technologies. With the new technology, it is possible to tailor the exact level of conductivity of the filament which opens up for a wide range of new possible applications that’s never been possible with 3D-printing before. The conductive filament can, for example, be used to produce circuit boards, shielding applications, electrostatics, sensors and other items for IoT applications.
Currently, the process is under scaling-up and first products are planned to be a highly conductive plastic filament for 3D printing, which will be launched in collaboration with the Swedish 3D filament producer AddNorth, as well as composite pellets/master batches for injection
molding and other polymer manufacturing technologies.