Abstract
Rotary ultrasonic machining has been approved as an effective and efficient hole making process for carbon fiber–reinforced plastic composites. Hole quality plays an important role in assembling carbon fiber–reinforced plastic components and can be affected by the carbon fiber reinforcement structures. In this study, experiments are conducted to assess hole quality in carbon fiber–reinforced plastic composites with three carbon fiber reinforcement structures under different combinations of machining variables. Hole quality is quantified through geometrical accuracy (perpendicularity, cylindricity, and hole diameter) and surface qualities (delamination and surface roughness). Results show that the highest level of interlacement among yarn of plain woven structure induce the highest level of compression to the workpiece and the largest amount of additional material removal, leading to the largest perpendicularity and hole diameter. The worst fabric integrity of unidirectional structure generates the largest amount of non-uniform material removal on the machined surface, resulting in the largest cylindricity. It is also found that compared with woven structures, unidirectional structure is more likely to induce push-out delamination due to its smaller critical energy release rate. The lowest constancy of the fabric in twill woven structure leads to the largest surface roughness.
Highlights
Carbon fiber–reinforced plastic (CFRP) composites, characterized by lightweight and high strength-toweight ratio, are comprised of carbon fibers and epoxy resin
The combination of carbon fiber and epoxy resin makes CFRP composites have the advantages of good dimensional stability, good thermal stability, high stiffness, high damping capacity, good corrosion resistance, and high wear resistance.[1,2]
CFRP composites are considered as hard-to-machine materials due to structural anisotropic properties, lack of plastic deformation, and high abrasiveness of carbon fibers.[1,7]
Summary
Carbon fiber–reinforced plastic (CFRP) composites, characterized by lightweight and high strength-toweight ratio, are comprised of carbon fibers and epoxy resin. The coolant was pumped through the diamond core drill bit to the interface of the workpiece and cutting tool. In this way, the cutting chips could be washed away and the temperature at the interface could be reduced
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