Using infrared spectroscopy in combination with multivariate data analysis to predict residual strength of carbon fiber reinforced polymers after one‐sided thermal loading

Abstract: In this study, structural, mechanical, and chemical changes of one-sided thermally loaded carbon fiber reinforced polymers (CFRPs) are investigated. The aim is to test and reliably predict residual strength and delamination depth by using infrared spectroscopy. CFRP of different thicknesses (HexPly ® 8552/ IM7) were irradiated at varying heat fluxes over various time intervals. The inhomogeneously distributed matrix degradation was analyzed by means of attenuated total reflection Fourier transform infrared spe… Show more

“…They concluded that laminates with graphene structures had better mechanical properties than laminates without them. Vetter et al [ 10 ] studied the structural, mechanical, and chemical changes of one‐sided thermally loaded carbon fiber reinforced polymers. These additional reinforcement structures seem to have influence on the residual curing mechanics of these polymeric matrices.…”

Temporal residual spontaneous cure in L‐shaped composites structures: The influence of angular stacking sequence, autoclave cooling rate cycle, and thickness

“…They concluded that laminates with graphene structures had better mechanical properties than laminates without them. Vetter et al [ 10 ] studied the structural, mechanical, and chemical changes of one‐sided thermally loaded carbon fiber reinforced polymers. These additional reinforcement structures seem to have influence on the residual curing mechanics of these polymeric matrices.…”

Temporal residual spontaneous cure in L‐shaped composites structures: The influence of angular stacking sequence, autoclave cooling rate cycle, and thickness

A coupled approach of spatial dielectric mapping and unsupervised machine learning for damage detection and severity segmentation in polymer matrix composites