BiCeps PROJECT
Bioinspired Cellular Actuators
Acronym:
BiCeps
Project number:
101186758
Call identifier:
HORIZON-EIC-2024-PATHFINDEROPEN-01
Topic:
HORIZON-EIC-2024-PATHFINDEROPEN-01-01
Type of Action:
HORIZON EIC Grants
Granting authority:
European Innovation Council and SMEs Executive Agency
Coordinator:
Brno University of Technology, Central European Institute of Technology, Czech Republic
Funding:
€ 2 894 306,25 (TnUAD: €597 481,25)
Duration:
1 March 2025 – 28 February 2029
Website: https://www.eic-biceps.eu/
Social media accounts:
LinkedIn: https://www.linkedin.com/company/biceps-project/
Bluesky: https://bsky.app/profile/bicepsproject.bsky.social
Consortium:
České vysoké učení technické v Praze, Czech Republic
Trenčianska univerzita Alexandra Dubčeka v Trenčíne, Slovakia
COMTES FHT AS, Czech Republic
LITHOZ GMBH, Austria
The project objective:
BiCeps aims to revolutionize mechanical motion generation by designing, developing, and fabricating muscle-inspired actuators. These innovative microscale devices will be based on active cellular metamaterials capable of contracting in response of a stimuli, emulating the functional mechanisms of a remarkable biological actuator. This objective will be realized through the continuous integration of stiff structural materials with active stimuli-responsive counterparts. Multimaterial additive manufacturing and allied technologies will allow the fabrication of artificial sarcomere, incorporating into 2D and 3D actuator arrays, and enabling macroscopic-scale contraction generating force through collective unit cell deformation. This groundbreaking approach overcomes the limitations associated with current active polymeric materials in soft robots, particularly their lack of structural stability. BiCeps aims to produce robust, enduring, and reliable actuators suitable for various technical applications, potentially replacing conventional electric motors and combustion engines in diverse sectors such as industrial, residential, and transportation. A critical priority for BiCeps is addressing the challenges associated with fabricating micro-architected cellular materials using high-strength materials. The risk involves uncovering optimal additive manufacturing, post-processing conditions and elucidate the principals of the actuator. The consortium’s expertise in multi-material additive manufacturing will play a crucial role in ensuring precision and performance of muscle-inspired actuators. The potential market opportunities for these new actuators are immense. Even capturing a modest 1% of the global motor market could represent a significant investment opportunity, given the projected growth and value of the sector.
