References
A. K. Bledzki and K. Goracy, “The use of recycled fiber composites as reinforcement for thermosets,” Mech. Composite Materials,29, No. 4, 473–477 (1993).
A. K. Bledzki, K. Kurek, and C. Barth, “Development of a thermoset part with SMC reclaim,” Proc. 50th Annual Techn. Conf. ANTEC, Society of Plastics Engineers, Detroit, 3–7, May, 1991 (1992), pp. 1558–1559.
R. M. Christensen, Mechanics of Composite Materials, John Wiley and Sons, New York (1979).
N. Banichuk, V. Kobelev, and R. Rikards, Optimization of Structures of Composite Materials [in Russian], Mashinostroenie Publishing House, Moscow (1988).
Z. Hashin, “Analysis of composite materials,” J. Appl. Mech.,50, September, 481–505 (1993).
S. Ahmed and F. F. R. Jones, “A review of particulate reinforcement theories for polymer composites, J. Material Sci.,25, 4933–4942 (1990).
R. L. McCullough, “Micro-models for composite materials — particulate and discontinuous fiber composites,” in: Delaware Composites Design Encyclopaedia, Vol. 2, Technomic Publishing Co., Lancaster-Basel (1990), pp. 93–142.
Z. Hashin, “Complex moduli of viscoelastic composite. II. Fiber reinforced materials,” Intern. J. Solids Struct.,6, No. 6, 797–807 (1970).
E. E. Ungar and E. M. Kerwin, Jr., “Loss factors of viscoelastic systems in terms of energy concepts,” J. Acoust. Soc. Am.,34, No. 7, 954–958 (1962).
R. F. Gibson, “Damping characteristics of composite materials and structures,” Proc. 6th Annual ASM/ESD Advanced Composites Conf., Detroit, Michigan, October 8–11 (1990), Vol. 11, pp. 441–449.
S. J. Hwang and R. F. Gibson, “Micromechanical modeling of damping in discontinuous fiber composites using a strain energy, finite element approach,” J. Eng. Materials Technol.,109, No. 1, 47–52 (1987).
R. D. Adams, M. A. O. Fox, R. J. L. Flood, R. J. Friend, and R. L. Hewitt, “The dynamic properties of unidirectional carbon and glass fiber-reinforced plastics in torsion and flexure,” J. Composite Materials, No. 3, 594–603 (1969).
D. A. Saravanos and C. C. Chamis, “Unified micromechanics of damping for unidirectional and off-axis fiber composites,” J. Composite Technol. Res.,12, No. 1, 31–40 (1990).
R. F. Gibson, Principles of Composite Material Mechanics, McGraw-Hill, Singapore (1994).
R. Rikards, A. K. Bledzki, V. Eglais, A. Chate, and K. Kurek, “Elaboration of optimal design models for composite materials from data of experiments,” Mech. Composite Materials,28. No. 3, 435–445 (1992).
R. Rikards, “Elaboration of optimal design models for objects from data of experiments,” in: Optimal Design with Advanced Materials, P. Pedersen (ed.), Elsevier Science Publishers, Amsterdam (1993).
“ERCOM closes the recycling loop on SMCs,” World Plastics and Rubber Technology, Cornhill Publications Ltd., Hong Kong (1994).
G. P. Ehnert, Das Recycling von SMC-heute und morgen, Proc. 25 AVK-Tagung. Berlin, November, 1993 (1993), P7-3–P7-8.
J. W. Milewski, “Whiskers and Short Fiber Technology,” Polymer Composites,13, No. 3, 223–236 (1992).
H. S. Katz and J. W. Milewski, Handbook of Fillers and Reinforcement for Plastics, J. W. Milewski (ed.), Van Nostrand Reinhold, New York (1978).
J. C. Halpin and N. J. Pagano, “The laminate approximation for randomly oriented fibrous composites,” J. Composite Materials,3, 720–724 (1969).
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Published in Mekhanika Kompozitnykh Materialov, Vol. 30, No. 6, pp. 781–796, November–December, 1994.
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Rikards, R., Goracy, K., Bledzki, A.K. et al. Prediction of mechanical properties of composites with recycled particles. Mech Compos Mater 30, 563–574 (1994). https://doi.org/10.1007/BF00821273
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DOI: https://doi.org/10.1007/BF00821273