论文信息 - Factors Affecting Workpiece Surface Integrity in Slotting of CFRP

Factors Affecting Workpiece Surface Integrity in Slotting of CFRP

CFRP use in aerospace applications has seen a dramatic increase over the last decade. The slotting/routing process is used to trim excess material from cured CFRP panels in wing manufacture. The work presented details the effect of different slotting parameters, tool materials (WC & PCD) and cutting environment (chilled air & dry) on the surface roughness and integrity of machined CFRP laminates when employing an L16 fractional factorial Taguchi experiment. Scanning electron micrographs and 3D topographic maps show the influence of fibre orientation with respect to the cutting direction. Thermal damage (burning & resin melt) were minimised using chilled air. Use of PCD tooling provided significantly increased productivity compared to coated WC with workpiece surface roughness of ∼3.6 μm Sa at 200m/min cutting speed and 0.03 mm/tooth feed rate.

[1] Philip Koshy,et al. Machining of Ceramics and Composites , 1999 .

[2] Yong Guo Wang,et al. Cutting Performance of Carbon Fiber Reinforced Plastics Using PCD Tool , 2011 .

[3] Stephen Williams,et al. Lug Cutting and Trimming of the Carbon Fibre Wing Panels of the Airbus A400m with Portable Hand Positioned Tools , 2007 .

[4] M. Ucar,et al. End-milling machinability of a carbon fiber reinforced laminated composite , 2005 .

[5] Mamidala Ramulu,et al. Effect of fibre direction on surface roughness measurements of machined graphite/epoxy composite , 1993 .

[6] A. Lamikiz,et al. Design and Test of a Multitooth Tool for CFRP Milling , 2009 .

[7] H. Hocheng,et al. Preliminary study on milling of unidirectional carbon fibre-reinforced plastics , 1993 .