Strong adhesion between recyclable thermoplastic (TP) polymer and carbon fiber (CF) has always been highly sought after. Therefore, for an interlayered CF reinforced TP polypropylene (CFRTPP) composite composed of 3 sized CF plies, alternating between 4 PP sheets, designated [PP][CF], a process of activating CF plies directly on both sides with homogeneous low energy electron beam irradiation (EBI) under N gas, prior to lamination assembly and hot press of 4.0 MPa at 493 K for 3 min was carried out. Experimental results showed EBI dose of 43.2, 129, or 216 kGy significantly raised Charpy impact values, at all fracture probabilities, . The 129 kGy dose appeared to be at or near optimum increasing 103%, 83%, and 65% at low-, median-, and high- = 0.07, 0.50, and 0.93; while raising statistically lowest impact value, at = 0 calculated by 3-dimensional Weibull equation about 110%, indicating increased safety and reliability. It is assumed dangling bonds generated by the EBI rapidly form covalent bonds CF:C:O:C:PP and CF:C:C:PP at the interface, along with cross-linking in the PP near the CF. This is by charge transfer from CF to PP.
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| http://dx.doi.org/10.3390/ma15217620 | DOI Listing |
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