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Carbon Fiber Composite Debris

Carbon Fiber Composite Debris

This is a tapelift sample from a carbon fiber composite shop where shaping and finishing is being performed.

Transmitted Oblique Illumination


Carbon fiber is a fiber produced by thermally processing a plastic or pitch-based fiber until nearly all of the hydrogen has been removed from the molecular structure and the carbon atoms have all bonded to other carbon atoms to form a graphene structure. The size, orientation, and percent of carbon involved in these graphene units determines the physical and optical properties of the resulting carbon fiber.

Carbon fiber may be added to plastics to reduce their electrostatic properties and prevent the development of static-electric charge. Its primary use is in the design of high strength, light weight, composite materials. These carbon fiber/resin composite materials are used in sporting goods such tennis rackets, golf clubs, skis, backpack frames, bicycle frames, etc. They are used in the bodies of automobiles, airplanes, high pressure vessels, boat bodies, anywhere high strength and light weight may be desirable. Carbon fiber/resin composites have been used for their unique optical properties to make decorator objects or panels.

Significance in the Environment:

Carbon fiber is used as the stiffening, conductive, and strength fiber in a wide variety of resin/fiber composite materials from skis to airplane bodies. Its presence in an environment may indicate proximity to a facility that is involved in the fabrication, refurbishment, or maintenance of some product that includes a carbon fiber/resin component or a woven carbon fiber conductive cloth. It may also be present as the result of mechanical damage to a carbon fiber/resin composite material in the environment sampled.

Characteristic Features:

Carbon fibers are opaque, black, and moderately reflective, about 24% in air and a bit less, about 18%, in a tapelift preparation. The tension on the fiber and shrinkage during processing result in surface striations parallel to the length of the fiber that often act as a diffraction grating when the incidence of the reflecting beam is perpendicular to the fiber and at the proper angle. Carbon fibers generally have a diameter between 4 and 8 micrometers. Some may be as much as 12 micrometers. Pitch precursor carbon fiber tends to be much more variable in diameter with some of the fibers being much larger in cross-section. A polished cross-section of a carbon fiber/resin composite examined with reflected and/or transmitted polarized light revels a great deal about the mechanical properties of the fibers, the fiber resin bond, and residual stresses in the finished composite.

Associated Particles:

Carbon fiber associated with damage to a carbon fiber/resin composite will be associated with fragments of the resin.