Investigation of irradiation dose rate on curing characteristics of carbon fiber/polymer composites by low‐energy electron beam

Abstract: During in situ low‐energy electron beam (E‐Beam) curing for carbon fiber‐reinforced polymer composite, prepregs undergoes 3 sequenced curing processes, namely E‐Beam‐induced curing, postray curing after irradiation, and thermally induced curing. In this study, the irradiation dose rate (IDR) is demonstrated to be influential on the redistribution of the curing portions in the 3 curing stages and directly influences the interlaminar bonding quality of the stepwise cured laminates. Differential scanning calorime… Show more

“…Owing to its low energy consumption, environmental friendliness, easy control, and rapid curing characteristics, EB is used in various curing processes, such as composite fabrication, hydrogel synthesis, wood product processing, antibacterial modification, electrode manufacture, and surface modification. − EB curing generates free radicals to induce polymerization in monomers, as in UV curing . In contrast to UV curing, EB curing does not require the doping of specific photoinitiators and directly initiates the connection reaction between the active parts .…”

Enhanced Polymerization and Surface Hardness of Colloidal Siloxane Films via Electron Beam Irradiation

“…Owing to its low energy consumption, environmental friendliness, easy control, and rapid curing characteristics, EB is used in various curing processes, such as composite fabrication, hydrogel synthesis, wood product processing, antibacterial modification, electrode manufacture, and surface modification. − EB curing generates free radicals to induce polymerization in monomers, as in UV curing . In contrast to UV curing, EB curing does not require the doping of specific photoinitiators and directly initiates the connection reaction between the active parts .…”

Enhanced Polymerization and Surface Hardness of Colloidal Siloxane Films via Electron Beam Irradiation

Application of Radiation Curing on Properties and Performance of Polymers and Polymer Composites

Life cycle assessment of mineral fibers and their composites