Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1467982 | Composites Part A: Applied Science and Manufacturing | 2007 | 11 Pages |
Pressure gradients that drive the resin flow during liquid composite moulding (LCM) processes can be very low while manufacturing large composite parts. Capillary pressure becomes the predominant force for tow impregnation and thus meso-scale-voids can be generated, reducing the part quality. In contrast, micro-voids are created at high resin pressure gradients. In this work, a numerical method is presented to predict the creation of meso-scale-voids and their evolution. Experimental validation is conducted by measuring void content of produced composite parts with micro-computed tomography (μ-CT). Additionally, the void content as a function of the modified capillary number Ca∗ is determined and the influence of the fibre volume content in the bundles on the meso-scale- and micro-void content is studied.