Analysis of Surface Modification of GFRP and Influence on the Drilled Part Delamination

I. Cavusoglua, M.N. Durakbasab and M. Cakirc aMarmara University, Vocational School of Technical Sciences, Mechanical and Metal Technology Deptartment, 34722, Kadıköy, İstanbul, Turkey bVienna University of Technology, Interchangeable Manufacturing and Industrial Metrology of Institute, for Production Engineering and Laver Technology, 1060 Getreidemarkt 9, BA-09, Wien, Austria cMarmara University, Faculty of Technology, Metallurgical and Materials Engineering Department, 34722, Kadıköy, İstanbul, Turkey

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Glass fibre reinforced plastics are especially used in aviation industry, marine applications, automobile industry and wind power plants. The shape of the products to be manufactured from glass fibre reinforced plastics materials can be easily produced by using different primary methods [J.-M. Bertholet, Composite Materials, Springer, New York 2012, p. 54]. Assembly is necessary to create the final products which have been fabricated from glass fibre reinforced plastics. Components manufactured from glass fibre reinforced plastics are drilled with CNC, during assembling process. Several kinds of defects occur around the hole after drilling the materials. Presence of defects influences the quality of holes and of the products. The aim of this study is to make comparison between modified and unmodified composite materials, both of which are formed of 30% of glass fibres and 70% of epoxy resin, in terms of delamination factor. Influence of surface modification is evaluated to identify optimum drilling parameters by using Taguchi orthogonal L18 matrix. Surface condition, drill diameter, spindle speed and feed rate are changed as process parameters in the experiments. According to the study, feed rate and spindle speed are the most influential parameters and the drill tool surface condition does not show any general change.

DOI: 10.12693/APhysPolA.131.423 PACS numbers: 72.80.Tm