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5. Anderson, J.P., and M.C. Altan, Formation of voids in composite laminates: Coupled effect of moisture content and processing pressure. Polymer Composites, 2015. 36(2): p. 376-384. 6. Centea, T., and P. Hubert, Measuring the impregnation of an out-of-autoclave prepreg by micro-CT. Composites Science and Technology, 2011. 71(5): p. 593-599. 7. Grunenfelder, L.K., and S.R. Nutt, Void formation in composite prepregs–effect of dissolved moisture. Composites Science and Technology, 2010. 70(16): p. 2304-2309. 8. Grunenfelder, L.K., T. Centea, P. Hubert, and S.R. Nutt, Effect of room-temperature out-time on tow impregnation in an out-of-autoclave prepreg. Composites Part A: Applied Science and Manufacturing, 2013. 45: p. 119-126. 9. Centea, T., and P. Hubert, Out-of-autoclave prepreg consolidation under deficient pressure conditions. Journal of Composite Materials, 2014. 48(16): p. 2033-2045. 10. Brillant, M., and P. Hubert, Out-of-Autoclave Manufacturing of Complex Shaped Composite Laminate. eThesis, McGill University, Department of Mechanical Engineering, 2011. 11. Hubert, P., and A. Poursartip, Aspects of the compaction of composite angle laminates: an experimental investigation. Journal of Composite Materials, 2001. 35(1): p. 2-26. 12. Albert, C., and G. Fernlund. Spring-in and warpage of angled composite laminates. Composites Science and Technology, 2002. 62(14): p. 1895-1912. 13. Fernlund, G., N. Rahman, R. Courdji, M. Bresslauer, A. Poursartip, K. Willden, and K. Nelson, Experimental and numerical study of the effect of cure cycle, tool surface, geometry, and lay-up on the dimensional fidelity of autoclave-processed composite parts. Composites part A: applied science and manufacturing, 2002. 33(3): p. 341-351. 14. Hubert, P., and A. Poursartip, A review of flow and compaction modelling relevant to thermoset matrix laminate processing. Journal of Reinforced Plastics and Composites, 1998. 17(4): p. 286-318. 15. Hubert, P., R. Vaziri, and A. Poursartip, A two-dimensional flow model for the process simulation of complex shape composite laminates. International Journal for Numerical Methods in Engineering, 1999. 44(1): p. 1-26. 16. Li, Y., M. Li, Y. Gu, and Z. Zhang. Numerical and experimental study on the effect of lay-up type and structural elements on thickness uniformity of L-shaped laminates. Applied Composite Materials, 2009. 16(2): p. 101-115. 17. Ma, Y., T. Centea, G. Nilakantan, and S. R. Nutt, Vacuum Bag Only Processing of Complex Shapes: Effect of Corner Angle, Material Properties and Process Conditions. 29th Tech. Conf. Am. Soc. Compos. US-Japan Conf. Compos. Mater. D-30 Meeting, La Jolla, 2014. 18. Lightfoot, J.S., M.R. Wisnom, and K. Potter. A new mechanism for the formation of ply wrinkles due to shear between plies. Composites Part A: Applied Science and Manufacturing, 2013. 49: p. 139-147. 19. Brillant, M., and P. Hubert, Out-of-Autoclave Processing of Complex Shape Laminates. SAMPE 2010 Conference of the Society for the Advancement of Materials and Process Engineering, Seattle, 2010. 20. Levy, A., J. Stadlin, and H. Pascal, Corner Consolidation in Vacuum Bag Only Processing of Out-of- Autoclave Composite Prepregs Laminates. SAMPE 2014 Technical Conference, Seattle, 2014. 21. Cauberghs, J., and P. Hubert, Effect of Tight Corners and Ply Terminations on Quality in Out-of- Autoclave Parts. SAMPE 2011 Conference of the Society for the Advancement of Materials and Process Engineering, Long Beach, 2011. 22. Grunenfelder L.K., C. Fisher, C. Cabble, S. Thomas, and S. R. Nutt, Defect Control in Out-of-Autoclave Manufacturing of Structural Elements. SAMPE 2012 Technical Conference, Charleston, 2012. 23. Hughes, S.M., and P. Hubert, Out-of-Autoclave Prepreg Processing: Effect of Integrated Geometric Effects on Part Quality. SAMPE 2013 Technical Conference, Wichita, 2013. DOI: 10.1002/pc.23773 24PDF Image | Vacuum Bag-Only Prepregs
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