Please use this identifier to cite or link to this item: https://doi.org/10.15480/882.2660
Publisher DOI: 10.1016/j.promfg.2016.11.001
Title: Laser scored machining of fiber reinforced plastics to prevent delamination
Language: English
Authors: Hintze, Wolfgang 
Cordes, Marcel 
Geis, Tobias 
Blühm, Melchior Frieder 
Emmelmann, Claus 
Canisius, Marten 
Keywords: fibre reinforced plastics;contour milling;laser pre-scoring;delamination;heat-affected zone
Issue Date: 18-Nov-2016
Source: Procedia Manufacturing (6): 1-8 (2016)
Journal or Series Name: Procedia manufacturing 
Abstract (english): Delamination is a major problem in contour milling of fiber reinforced plastics (FRP) causing scrap or rework. Today, delamination avoidance limits overall productivity and tool life. Damage of the top layer of a composite structure is initiated if fibers are not cut during first engagement of the cutting edge, but deflected. Generated cracks propagate due to recurrent contact of fibers with the rotating tool. In contrast, when laser cutting FRP, the heat input often leads to an extensive heat-affected zone (HAZ), particularly in case of large laminate thickness and high energy input. Combination of both processes is a promising approach to overcome the mentioned disadvantages. Experiments indicate that pre-scoring of the top layer is possible with negligible HAZ for FRP materials using proper laser parameters, especially low energy input per unit length. Positioning of the laser scored kerf along the contour to be manufactured by the subsequent milling tool prevents crack propagation along the fiber direction even with a heavily worn milling tool at increased feed rate. Furthermore, laser pre-scoring eliminates protruding fibers and allows for edge chamfering. The process understanding is enhanced using simulation of the laser pre-scoring, particularly considering heat conduction and forced convection, as well as by presenting a model for the mechanism of delamination prevention.
Conference: 16th Machining Innovations Conference for Aerospace Industry - MIC 2016 
URI: http://hdl.handle.net/11420/4940
DOI: 10.15480/882.2660
ISSN: 2351-9789
Institute: Produktionsmanagement und -technik M-18 
Laser- und Anlagensystemtechnik G-2 
Type: (wissenschaftlicher) Artikel
Funded by: The project on which this paper is based is funded by the German Federal Ministry of Economics Affairs and Energy under funding code 20W1509C.
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