Abstract
This chapter delves into the fracture behavior of nanomaterial-enhanced carbon fiber-reinforced polymer (CFRP) composites. It explores how traditional fracture mechanisms like matrix cracking and fiber-matrix debonding are altered by nanomaterials. The chapter highlights how these nanomaterials can bridge cracks, strengthen interfaces, and potentially introduce additional functionalities, ultimately enhancing fracture resistance. Computational modeling techniques like FEA and multiscale modeling are discussed as valuable tools for analyzing crack propagation and understanding the influence of nanomaterials. Promising future research directions for material development, including exploring novel nanomaterials and optimizing production methods, are outlined. The chapter concludes by comparing traditional and nanomaterial-enhanced CFRPs, emphasizing the advancements in fracture resistance and durability achieved through nanomaterial incorporation.