Moisture absorption and wet-adhesion properties of resin transfer molded (RTM) composites containing elastomer-coated glass fibers

摘要

Transient water sorption studies were carried out at constant temperature (45deg C) to assess the hydrolytic stability and wet-adhesion properties of glass fiber/epoxy composites having different sizings.Lower effective diffusivity values correlated with improved overall mechanical performance in relation to the control (unsized) samples,and revealed the importance of changing the surface energy characteristics of glass fibers by using distinctively hydrophobic pure polymers.Admicellar polystyrene and styrene-isoprene coatings formed over the inorganic reinforcement appear to create an interface with much higher resistance to moisture attack than the organosilane/matrix interface in composites with commercial sizing.This fact was corroborated by comparing their effectiveness in property retention,which showed the mechanical property (e.g.ultimate tensile strength,stiffness and interlaminar shear strength) increased with respect to the uncoated composites in the dry state as well as after water saturation.Poor wet-adhesion properties of commercial sizings in humid conditions could perhaps be attributed to higher contents of inert material present in these coatings.Fractography analysis was consistent with the previous observations regarding catastrophic failure in composites without coating,and suggested that interfacial debonding,extensive fiber pullout and matrix crazing were the major contributors to the overall failure mechanism.Failed surfaces of both commercial and elastomer-coated composites also showed areas with fiber pullout,but in this case,matrix residues remained on the fiber surfaces,yielding a much rougher appearance.Good fiber-matrix adhesion,particularly in admicellar-coated composites,was also revealed by the presence of hackles and more tortuous failure paths.