ASSESS
The project aims to enable safer, lighter, and more efficient components through smart FRP composites. It designs, manufactures, and tests new-generation smart FRP materials and integrates wireless sensing, data processing, modeling, and AI/ML-driven damage assessment. Key technologies include Fibre Reinforced Polymer (FRP), nanomaterials, sensing devices such as piezoelectric transducers and fibre optic sensors, RFID, artificial intelligence, machine learning, and digital twins. Target customers are research organizations and industry professionals in aerospace, wind energy, and related sectors; it operates as a research and training network.
ASSESS
The project aims to enable safer, lighter, and more efficient components through smart FRP composites. It designs, manufactures, and tests new-generation smart FRP materials and integrates wireless sensing, data processing, modeling, and AI/ML-driven damage assessment. Key technologies include Fibre Reinforced Polymer (FRP), nanomaterials, sensing devices such as piezoelectric transducers and fibre optic sensors, RFID, artificial intelligence, machine learning, and digital twins. Target customers are research organizations and industry professionals in aerospace, wind energy, and related sectors; it operates as a research and training network.