Your Safe Electronics

ESD Fiberlogy filament was created to protect electronic components which are sensitive to electrostatic discharges. The material has high dissipation and antistatic properties with respect to energy coming from discharges, and so it is able to prevent damage or significantly reduce the risk of damage to your electronic devices.

The destructive nature of electrostatic discharge leads to the generation of high costs related to the maintenance, repair and replacement of vulnerable components that companies have to bear, especially those which produce and use electronics in conditions that are conducive to the occurrence of the ESD effect. The task of ESD from Fiberlogy is to eliminate this threat. Therefore, the ESD filament will come in handy when printing housings for integrated circuits, sensors, connectors, measuring devices

ELECTRONICS: housings, covers, cases, screens products equipped with diodes, connectors
TOOLS OR THEIR PARTS: tools for working with electronics, tools for making electronic components
PARTS AND TRANSMISSION TOOLS: machine components, elements of equipment for employees and manufacturing plants


High resistance to electrostatic discharge and chemicals
High impact strength
Resistance to high temperatures and scratching
Possibility of mechanical and chemical processing

How to print?
The following parameters are only suggested print settings for this material. To ensure the best print quality, it is necessary to choose the appropriate settings for a specific printer and printing conditions.

Nozzle Temperature


Bed Temperature


Closed chamber






Printing Speed




Retraction (direct)


Retraction (bowden)


Retraction Speed


Drying conditions











35-60 mm/s


glass, masking tape


2-3 mm


4-6 mm


20-45 mm/s


60°C / 4h



Due to the presence of nanoparticles, the filament structure is not smooth. The presence of thickening is natural, but it does not affect the correct diameter of the filament, which is within the declared range.
Due to the possibility of accumulation of nanoparticles, we recommend using a 0.6 mm nozzle, and if the nozzle clogs, the printing temperature should be increased.