Macroetching of carbon fiber-phenolic composites

Viscoelastic characteristics of cured phenolic resin-carbon fiber composite materials were investigated through glass transition and degradation reaction processes in the high-temperature region up to 400°C. A typical glass transition of the crosslinked thermoset polymer was followed by irreversible

Carbon fiber composites based on tetrafunctional epoxy resin N,N,N,N-tetraglycidyl-2,2bis[4-(4-aminophenoxy)phenyl]propane modified with cardanol were investigated. The differential scanning calorimetric technique was used to study the curing reaction of the neat resins. The dielectric properties of

Vapor-grown carbon-fiber (VGCF) reinforced carbon (VGCF-C) composites were studied for thermal and physical properties. Effect of fiber volume fraction and final density of composite on thermal conductivity was investigated. The fiber volume fractions range from 25 v/o to 36% and the final densitie

The electrolytic plating of metallic nickel on a carbon fiber surface has been carried out in order to improve the interfacial adhesion and the mechanical properties in carbon fiber/phenolic matrix composite systems. The surface and the mechanical interfacial properties of composites are characteriz