Chapter 5: References

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  4. Camacho, C.W., Tucker, C.L., Yalvaç, S. & McGee, R.L. (1990). Stiffness and thermal expansion predictions for hybrid short fiber composites. Polymer Composites. 11, 229-239.

  5. Cintra, J. S. & Tucker, C. L. (1995) Orthotropic closure approximations for flow-induced fiber orientation. Journal of Rheology. 39 (6).

  6. Dillenberger, F. (2020). On the anisotropic plastic behaviour of short fibre reinforced thermoplastics and its description by phenomenological material modelling. Springer Vieweg, 53.

  7. Geers, M., Kouznetsova, V., & Brekelmans, W. (2010). Multi-scale computational homogenization: trends and challenges. Journal of Computational and Applied Mathematics. 234 (7), 2175-2182.

  8. Hill, R. (1983). The Mathematical Theory of Plasticity. New York: Oxford University Press.

  9. Kouznetsova, V. (2002). Computational Homogenization for the Multi-Scale Analysis of Multi-Phase Materials. Eindhoven: Technische Universiteit Eindhoven.

  10. Köbler, J., Schneider, M., Ospald, F., Andrä H., & Müller, R. (2018). Fiber orientation interpolation for the multiscale analysis of short fiber reinforced composite parts. Computational Mechanics. 61, 729-750.

  11. Launay, A., Maitournam, M.H., Marco, Y., & Raoult, I. (2013). Multiaxial fatigue models for short glass fiber reinforced polyamide – Part I: Nonlinear anisotropic constitutive behavior for cyclic response. International Journal of Fatigue. (47), 382-389.

  12. Launay, A., Maitournam, M.H., Marco, Y., Raoult, I., & Szmytka, F. (2011). Cyclic behaviour of short glass fibre reinforced polyamide: Experimental study and constitutive equations. International Journal of Plasticity. 27 (8), 1267-1293.

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  14. Li, S., Jeanmeure, L.F.C., & Pan, Q. J. (2015). A composite material characterisation tool: UnitCells. J Eng Math. (95) 279.

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  17. Ottosen, N.S., Ristinmaa, M. (2005) The Mechanics of Constitutive Modeling. Amsterdam: Elsevier.

  18. Parnell, W.J. (2016). The Eshelby, Hill, moment and concentration tensors for ellipsoidal inhomogeneities in the Newtonian potential problem and linear elastostatics. Journal of Elasticity. 125, 125-231.

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  20. Schmachtenberg, E. (1985). Die mechanischen Eigenschaften nichtlinear viskoelastischer Werkstoffe [PhD thesis, RWTH Aachen University].

  21. Schneider, M. (2017). The sequential addition and migration method to generate representative volume elements for the homogenization of short fiber reinforced plastics. Computational Mechanics.59 (2), 247-263.

  22. Tucker, C. L. & Liang, E. (1999) Stiffness predictions for unidirectional short fiber composites: Review and evaluation. Composites Science and Technology. 59, 655-671.

  23. Van Hattum, F. W. J. & Bernardo, C. A. (1999). A model to predict the strength of short fiber composites. Polymer Composites, 20 (4), 524-533.

  24. Younes, R., Hallal, A., Fardoun, F., & Chehade, F.H. (2012). Ch. 17: Comparative review study on elastic properties modeling for unidirectional composite materials. Composites and Their Properties.(Hu, N. ed.).