Enhanced flexural strength of carbon nanotubes‐glass fiber epoxy composite laminates using an electrospray deposition technique

The electrospray deposition technique (ESD) was used to coat carbon nanotubes (CNTs) uniformly on the surface of glass fiber (GF) and to increase the flexural strength of CNTs‐GF epoxy composite laminate. The deposition of CNTs on the GF surface has been optimized by the applied voltage and spray time. The deposited CNTs on the GF surface showed a well dispersed and homogeneous coating. Implementing optimized ESD in the fabrication of composite laminate caused a 25.26% to 59.28% improvement of flexural performance in CNTs‐GF composite laminate. The dispersion of CNTs was characterized by using a digital microscope, a field emission scanning electron microscope (FESEM), and a transmission electron microscope (TEM). The result revealed that the applied voltage had an impact on the well‐dispersed coated CNTs, while the spray time affected the flexural output. The graphical presented the process and output from the study. The improvement of flexural strength on the CNTs‐GF epoxy composite laminates summarized in the graph of graphic .