Page 378 - Mechanics Analysis Composite Materials

P. 378

Chapter I. Environmental, special loading, and manufacturinx efiects 363

Morozov, E.V. and Popkova, L.K. (1987). Combined theoretical and experimental method of
determining residual stresses in wound composite shells. J. Mech. Composite Mater. 23 (6),802-807.
Murakami, S.. Kanagawa, Y., Ishida, T. and Tsushima, E. (1991). Inelastic deformation and fatigue
damage of composite under multiaxial loading. In Inelastic Defromation of Composite Materials
(G.J. Dvorak ed.), Springer Verlag, New York, pp. 675-694.
Ni. R.G. and Adams, R.D. (1984). The damping and dynamic moduli of symmetric laminated composite
beams - theoretical and experimental results. J. Composite Mater. 18 (2). 104-121.
Perov, Yu.Yu. and Kruzhkova, E. Yu. (1991). Influence of moisture on mechanical properties of carbon-
reinforced plastics with various porosities. J. Mech. Composite Mater. 27 (2), 144151.
Rabotnov, Yu. N. (1980). Elements of Heredirary Solid Mechanics, Mir Publishers, Moscow.
Rach. V.A. and Ivanovskii, V.S. (1986). On the effect of fiber length variation in filament wound
structures. Mech. Composite Mater. 67-72 (in Russian).
Rogers, E.F., Phillips, L.M., Kingston-Lee, D.M. el a]. (1997). The thermal expansion of carbon fiber-
reinforced plastics. J. Mater. Sci. 1 (12). 718-734.
Schapery, R.A. (1974). Viscoelastic behavior and analysis of composite materials. In Composite
Materials (L.J. Broutman and R.H. Krock eds.), Vol. 2 Mechanics of Composite Materials (G.P.
Sendeckyj ed.), Academic Press, Inc., New York, pp. 85-168.
Schulte, K., Reese, E. and Chou, T.-W. (1987). Fatigue behavior and damage development in woven
fabric and hybrid fabric composites. Proc. 6th Inr. Conf. on Composite Materials and 2nd European
Con$ on Composite Materials (ICCM and ECCM), Vol. 4 (F.L. Matthews, N.C.R. Buskel. J.M.
Hodgkinson and J. Morton eds.), Elsevier Science Ltd, London, pp. 8%99.
Shen, S.H. and Springer, C.S. (1976). Moisture absorption and desorption of composite materials. J.
Composite Mater. 10, 2-20.
Skudra, A.M., Bulavs. F.Ya., Gurvich, M.R. and Kruklinsh, A.A. (1989). Elements of Structural
Mechanics of composite Truss Systems. Riga, Zinatne (in Russian).
Soutis, C. and Turkmen, D. (1993). High-temperature effects on the compressive strength of glass fiber-
reinforced composites. In Proc. 9th Int. Cor$ on Composite Materials (ICCM/9),Madrid, 12-16 July
Vol. 6, Composite Properties and Applications, University of Zaragoza, Woodhead Publ. Ltd., pp.
581 588.
Strife, J.R. and Prevo, K.M. (1979). The thermal expansion behavior of unidirectional kevlar/epoxy
composites. J. Composite Mater. 13, 264-276.
Sukhanov, A.V., Lapotkin. V.A., Artemchuk, V.Ya. and Sobol', L.A. (1990). Thermal deformation of
composites for dimensionally stable structures, J. Mech. Composite Mnter. 26 (A), 432436.
Tamuzh, V.P. and Protasov, V.D. (Editors) (1986). Fracture of Composite Structures. Riga, Zinatne (in
Russian).
Tarnopol'skii. Yu.M. and Roze, A.V. (1969). Specific Features of Ana1ysi.S for Structural Elements q/
Reinforced Plastics. Riga, Zinatne (in Russian).
Vasiliev, V.V. and Sibiryakov, A.V. (1985). Propagation of elastic waves in a laminated strip. Mech.
solid.^ 1, 104109.
Verpoest, I., Li, L. and Doxsee, L. (1989) A combined micro- and macromechanical study of the impact
behavior of carbon and glass fiber epoxy composites. In Proc. 72h Inr. Confi on Composite Materials
(/CCM-7), November 1989, Guangzhou, China, Vol. 2 (W. Yunshu, G. Zhenlong and W. Rrenjie
eds.), Pergamon Press, Oxford, pp. 316-321.
Zinoviev, P.A. and Ermakov, Yu. N. (1994). Energy Dissipation in Composite Materiub, Technomic Publ.

373 374 375 376 377 378 379 380 381 382 383