Sage Journals: Discover world-class research

Abstract

A model for the consolidation of thermoplastic composites based on commingled yarns was developed. The evolution of composite void content during consolidation was related to the processing parameters and the material properties. Additionally, the analysis relied on experimental investigation of the yarn structure, taking into account a distribution in dry fiber bundle sizes. Residual porosity was considered to result from pore closing at a given stage during fiber bundle impregnation. The accuracy of the model was assessed by conducting consolidation experiments using a unidirectional commingled yarn fabric made of polyamide 12 resin and carbon fibers. Excellent correlation was found between predicted and experimental void contents. The model aided prediction of suitable processing conditions and identification of the main physical and geometrical parameters influencing the consolidation rate.

Keywords

impregnation consolidation model thermoplastic composite commingled yarn

Get full access to this article

View all access options for this article.

References

1. Klinkmüller, V. , R. Kästel , L. Ye and K. Friedrich . 1995. "On Impregnation Quality and Resulting Mechanical Properties of Compression Moulded Commingled Yarn Based Thermoplastic Composites," IUTAM Symposium on Microstructure-Property Interactions in Composite Materials, pp. 189-201.

2. Klinkmüller, V. , M.-K. Um , M. Steffens , K. Friedrich and B. -S. Kim . 1995. "A New Model for Impregnation Mechanisms in Different GF/PP Commingled Yams," Applied Composite Materials, 1:351-371.

3. Ye, L. , K. Friedrich and J. Kästel . 1995. "Consolidation of GF/PP Commingled Yarn Composites," Applied Composite Materials, 1:415-429.

4. Ye, L. , K. Friedrich , J. Kastel and Y. -W. Mai . 1995. "Consolidation of Unidirectional CF/PEEK Composites From Commingled Yarn Prepreg," Composites Science and Technology, 54:349-358.

5. Van West, B. P. , R. B. Pipes and S. G. Advani . 1991. "The Consolidation of Commingled Thermoplastic Fabrics," Polymer Composites, 12(6):417-427.

6. Cain, T. A. , M. D. Wakeman , R. Brooks , A. C. Long and C. D. Rudd . 1997. "Towards an Integrated Processing Model for a Co-Mingled Thermoplastic Composite," Proceedings of the Eleventh International Conference on Composite Materials, Gold Coast, Australia, Vol. V, pp. 366-376.

7. Svensson, N. , R. Shishoo and M. Gilchrist . 1998. "Manufacturing of Thermoplastic Composites from Commingled Yarns—A Review," Journal of Thermoplastic Composite Materials, 11:22-56.

8. Phillips, R. , D. A. Akyüz and J.-A. E. Månson . 1998. "Prediction of the Consolidation of Woven Fibre-reinforced Thermoplastic Composites, Part I. Isothermal Case," Composites, Part A: Applied Science and Manufacturing, 29A(4):395-402.

9. Kim, Y. R. , S. P. McCarthy and J. P. Fanucci . 1991. "Compressibility and Relaxation of Fiber Reinforcements During Composite Processing," Polymer Composites, 12(1): 13-19.

10.

10. Ahn, K. J. , J. C. Seferis and J. C. Berg . 1991. "Simultaneous Measurements of Permeability and Capillary Pressure of Thermosetting Matrices in Woven Fabric Reinforcements," Polymer Composites, 12(3):146-152.

11.

11. Wagner, H. D. 1990. "Spreading of Liquid Droplets on Cylindrical Surfaces: Accurate Determination of Contact Angle," Journal of Applied Physics, 67(3):1352-1355.

12.

12. Gutowski, T. G. 1985. "A Resin Flow/Fiber Deformation Model for Composites," SAMPE Quarterly, 16(4):58-64.

13.

13. Gutowski, T. G. , J. Kingery and D. Boucher . 1986. "Experiments in Composites Consolidation: Fiber Deformation," ANTEC '86, pp. 1316-1320.

14.

14. Gutowski, T. G. , Z. Cai , J. Kingery and S. J. Wineman . 1986. "Resin Flow/Fiber Deformation Experiments," SAMPE Quarterly, 17(4):54-58.

15.

15. Gutowski, T. G. , Z. Cai , S. Bauer , D. Boucher , J. Kingery and S. J. Wineman . 1987. "Consolidation Experiments for Laminate Composites," Journal of Composite Materials, 21:650-669.

16.

16. Greenkorn, R. A. 1983. Flow Phenomena in Porous Media, M. Dekker, New York.

17.

17. Gebart, B. R. 1992. "Permeability of Unidirectional Reinforcements for RTM," Journal of Composite Materials, 26(8):1100-1133.

An Impregnation Model for the Consolidation of Thermoplastic Composites Made from Commingled Yarns

Abstract

Keywords

Get full access to this article

References