An end-to-end transformer-based TabPFN framework for predicting mechanical strength degradation of fiber-reinforced polymer composite reinforcements embedded in marine concrete
Journal of Composite Materials
Published online on April 08, 2026
Abstract
Journal of Composite Materials, Ahead of Print.
Experimental investigations of fiber-reinforced polymer (FRP) bars in realistic marine concrete environments are costly and time-intensive, resulting in scarce test data that poses a major obstacle to reliable degradation models for FRP’s strength ...
Experimental investigations of fiber-reinforced polymer (FRP) bars in realistic marine concrete environments are costly and time-intensive, resulting in scarce test data that poses a major obstacle to reliable degradation models for FRP’s strength ...