Microstructural damage dependent machine learning model to predict stiffness reduction in damaged GFRP composites
Journal of Reinforced Plastics and Composites
Published online on June 09, 2025
Abstract
Journal of Reinforced Plastics and Composites, Ahead of Print.
The underlying cause of stiffness degradation in composites subjected to fatigue is irreversible microstructural damage, which exhibits spatial anisotropy depending on the loading conditions and structural characteristics. Each mode of microdamage ...
The underlying cause of stiffness degradation in composites subjected to fatigue is irreversible microstructural damage, which exhibits spatial anisotropy depending on the loading conditions and structural characteristics. Each mode of microdamage ...