论文信息 - A model for resin flow during composite processing part 2: Numerical analysis for unidirectional graphite/epoxy laminates

A model for resin flow during composite processing part 2: Numerical analysis for unidirectional graphite/epoxy laminates

In this paper numerical results are presented for resin flow during processing of unidirectional graphite/epoxy laminates. Resin pressure and velocity profiles, as well as resin loss, specific permeability, and resulting thickness changes, were computed to examine the effects of one and two-dimensional flow, initial laminate thickness, and various cure cycles. Input data to the model are also discussed in detail. Analysis of the input data on the stress-strain behavior of graphite fiber beds showed that the bed consolidation behavior can be divided into three regions. “Free-bleeding” (O psig and negligible bleeder resistance to flow at the boundaries) during two-dimensional resin flow leads to rapid decay in resin pressure. Comparison of the predicted results for the resin mass loss and the average final thickness per ply with experimentally determined values shows good agreement.

[1] E. Lord. 10—Air Flow through Plugs of Textile Fibres Part 1—General Flow Relations , 1955 .

[2] George S. Springer,et al. Heat of Reaction, Degree of Cure, and Viscosity of Hercules 3501-6 Resin , 1982 .

[3] F. Dullien,et al. Single phase flow through porous media and pore structure , 1975 .

[4] R. R. Sullivan. Specific Surface Measurements on Compact Bundles of Parallel Fibers , 1942 .

[5] J. L. Kardos,et al. A model for resin flow during composite processing: Part 1—general mathematical development , 1987 .

[6] K. L. Hertel,et al. The Flow of Air Through Porous Media , 1940 .

[7] J. G. Williams,et al. Liquid flow through aligned fiber beds , 1974 .

[8] G. Springer,et al. Curing of Epoxy Matrix Composites , 1983 .