F. G. Zhou scite author profile

ABSTRACT:Interfacial adhesion between carbon fiber and epoxy resin plays an important role in determining performance of carbon-epoxy composites. The objective of this research is to determine the effect of fiber surface treatment (oxidization in air) on the mechanical properties (flexural strength and modulus, shear and impact strengths) of three-dimensionally (3D) braided carbon-fiber-reinforced epoxy (C 3D /EP) composites. Carbon fibers were air-treated under various conditions to improve fiber-matrix adhesion. It is found that excessive oxidation will cause formation of micropits. These micropits are preferably formed in crevices of fiber surfaces. The micropits formed on fiber surfaces produce strengthened fiber-matrix bond, but cause great loss of fiber strength and is probably harmful to the overall performance of the corresponding composites. A trade-off between the fiber-matrix bond and fiber strength loss should be considered. The effectiveness of fiber surface treatment on performance improvement of the C 3D /EP composites was compared with that of the unidirectional carbon fiberepoxy composites. In addition, the effects of fiber volume fraction (V f ) and braiding angle on relative performance improvements were determined. Results reveal obvious effects of V f and braiding angle. A mechanism was proposed to explain the experimental phenomena.

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Moisture Absorption Behavior of Carbon Fiber-Reinforced Monomer Casting Nylon Composites

Wan

Wang

Zhou

et al. 2004

Journal of Reinforced Plastics and Composites

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A series of tests were conducted to study the moisture absorption behaviors of carbon fiber-reinforced monomer casting nylon (CF/MC) composites with fiber contents of 10 and 15 vol.%, and their effects on mechanical properties. The results show that the moisture absorption behavior of the CF/MC composites obeys a Fickian relationship. The maximum moisture uptake has been found to decrease with the increase of carbon fiber volume fraction. The moisture absorption rate and the time to reach the saturation fall as the immersion medium temperature increases. Furthermore, a great increase in moisture content and absorption rate is observed as the pH values of the medium decrease. It is observed that moisture intake has a deleterious effect on the mechanical properties (bending strength and hardness) of the CF/MC composites. Scanning electron microscopy (SEM) has been used to examine the shear and impact surfaces of the composites, and the findings of SEM observations are consistent with those of the moisture absorption experiments.

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F. G. Zhou

Characterization of three-dimensional braided carbon/Kevlar hybrid composites for orthopedic usage

Moisture sorption and mechanical degradation of VARTMed three-dimensional braided carbon–epoxy composites

Friction and wear behavior of three-dimensional braided carbon fiber/epoxy composites under lubricated sliding conditions

Three‐dimensionally braided carbon fiber–epoxy composites, a new type of materials for osteosynthesis devices. II. Influence of fiber surface treatment

Moisture Absorption Behavior of Carbon Fiber-Reinforced Monomer Casting Nylon Composites

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