Composite Materials Research Progress

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46 Jacquemin Frédéric and Fréour Sylvain Benveniste, Y. (1987). A New Approach to the Application of Mori-Tanaka’s Theory in Composite Materials, Mechanics of Materials, 6: 147-157. Bowles, D.E., Post, D., Herakovich, C.T., and Tenney, D.R. (1981). Moiré Interferometry for Thermal Expansion of Composites, Exp. Mech., 21: 441-447. Breton, Y., Désarmot, G., Salvetat, J.P., Delpeux, S., Sinturel, C., Béguin, F. et Bonnamy, S. (2004). Mechanical properties of multiwall carbon nanotubes/epoxy composites : influence of network morphology, Carbon, 42: 1027-1030. Christensen, R. M. and Rinde, J. A. (1979). Transverse tensile characteristics of fiber composites with flexible resins : theory and test results, Pol. Eng. Sci., 19: 506-511. Crank, J. (1975). The mathematics of diffusion, Clarendon Press, Oxford. Cuntze, R. G. (2003). The predictive capability of failure mode concept-based strength criteria for multi-directional laminates – part B, Composite Science and Technology, 64: 487-516. Daniel, I. M., and Ishai, O. (1994). In: “Engineering Mechanics of Composite Materials”, Oxford University Press. Decelle, J., Huet, N. and Bellenger, V. (2003). Oxidation induced shrinkage for thermally aged epoxy networks, Polymer Degradation and Stability, 81: 239-248. Demczyk, B.G., Wang, Y.M., Cumings, J., Hetman, M., Han, W., Zettl, A., and Ritchie, R. O. (2002). « Direct mechanical measurement of the tensile strength and elastic modulus of multiwalled carbon nanotubes », Mat. Sci. Eng., A334: 173-178. DiCarlo, J.A. (1986). Creep of chemically vapor deposited SiC fiber, J. Mater. Sci., 21: 217-224. Dyer, S.R.A., Lord, D., Hutchinson, I.J., Ward, I.M. and Duckett, R.A. (1992). Elastic anisotropy in unidirectional fibre reinforced composites, J. Phys. D: Appl. Phys., 25: 66-73. Eshelby, J. D. (1957). The Determination of the Elastic Field of an Ellipsoidal Inclusion, and Related Problems, In: Proceedings of the Royal Society London, A241: 376–396. Ferreira, C., Casari, P., Bouzidi, R. and Jacquemin, F. (2006a). Identification of Young Modulus Profile in PVC Foam Core thickness using speckle interferometry and Inverse Method, Proceedings of SPIE - The International Society for Optical Engineering. Ferreira, C., Jacquemin, F. and Casari, P. (2006b). Measurement of the nonuniform thermal expansion coefficient of a PVC foam core by speckle interferometry - Influence on the mechanical behavior of sandwich structures, Journal of Cellular Plastics, 42 (5): 393-404. Fiedler, B., Hojo, M., Ochiai, S., Schulte, K. and Ando, M. (2001), Failure behaviour of an epoxy matrix under different kinds of static loading, Composite Science and Technology, 61: 1615-1624. Fleck, N. A. and Jelf, P. M. (1995). Deformation and failure of a carbon fibre composite under combined shear and transverse loading, Acta metall. mater., 43: 3001-3007. François, M. (1991). Détermination de contraintes résiduelles sur des fils d’acier eutectoïde de faible diamètre par diffraction des rayons X, Doctoral Thesis, ENSAM, Paris. Fréour, S., Gloaguen, D., François, M., Guillén, R., Girard, E. and Bouillo, J. (2002) Determination of the macroscopic elastic constants of a phase embedded in a multiphase polycrystal – application to the beta-phase of Ti17 titanium based alloy, Materials Science Forum, 404-407: 723-728.
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COMPOSITE MATERIALS RESEARCH PROGRE
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Copyright © 2008 by Nova Science P
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vi Contents Chapter 9 Recent Advanc
Page 10 and 11: viii Lucas P. Durand scale transiti
Page 12 and 13: x Lucas P. Durand machine. In paral
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Page 17 and 18: Multi-scale Analysis of Fiber-Reinf
Page 25 and 26: T300 fibers (Soden et al., 1998; Ag
Page 29 and 30: 1 I L = L : r v Multi-scale Analysi
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Page 51 and 52: Applied macroscopic load Correspond
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Page 67 and 68: Optimization of Laminated Composite
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Page 73 and 74: and γ 2 γ 0 Optimization of Lamin
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Optimization of Laminated Composite
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110 W.H. Zhong, R.G. Maguire, S.S.
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112 Reinforcement: Advanced materia
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130 Yuanxin Zhou, Hassan Mahfuz, Vi
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140 Heat Flow (W/g) Heat Flow (W/g)
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144 Material Yuanxin Zhou, Hassan M
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146 SEM Analysis Yuanxin Zhou, Hass
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150 Governing Equation For the fibe
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152 ⎧ UU = ⎨ ⎩ ⎧ UD = ⎨
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156 Stress (MPa) 120 80 40 0 Yuanxi
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166 Giangiacomo Minak and Andrea Zu
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170 ⎟ ⎞ ⎠ s ⎜ ⎛ ⎝ = a E
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188 A B E (MPa) D 250000 200000 150
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190 D D 1.0 0.9 0.8 0.7 0.6 0.5 0.4
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204 Conclusion Giangiacomo Minak an
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In: Composite Materials Research Pr
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Research Directions in the Fatigue
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Bending force [N] Research Directio
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Damage Variables in Impact Testing
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F peak [kN] 16 14 12 10 8 6 4 2 0 D
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Eletromechanical Field Concentratio
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MV/m. Eletromechanical Field Concen
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276 S.C. Tjong developed in the pas
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278 S.C. Tjong ultrasonic waves gen
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280 S.C. Tjong applications. Goujon
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282 S.C. Tjong nanoparticles were p
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284 S.C. Tjong where DL is lattice
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286 S.C. Tjong stress is temperatur
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288 S.C. Tjong threshold stress res
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290 S.C. Tjong NC Al, and the NC Al
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292 S.C. Tjong (a) (b) Figure 19. T
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294 S.C. Tjong Apart from forming u
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296 S.C. Tjong [29] Saravanan, M.;
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298 braids, 115 broadband, 211 bubb
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300 endothermic, 139 endurance, 32
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302 isostatic pressing, 279, 288 It
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304 piezoelectricity, 261 pitch, 12
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306 67, 69, 70, 71, 72, 73, 84, 94,
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