References
Ashby, M.F., “Technology of the 1990's: Advanced Materials and Predictive Design,“Philosophical Trans. Royal Soc. Lon.,A232,393–407 (1987).
Åström, B.T., Manufacturing of Polymer Composites, Chapman and Hall, London (1997).
Daniel, I.M. andIshai, O., Engineering Mechanics of Composite Materials, Oxford University Press, New York (1994).
Lekhnitskii, S.G., Theory of Anisotropic Elastic Body, P. Fern, trans., J.J. Brandstatter, ed., Holden-Day, San Francisco (1963).
Aveston, J., Cooper, G.A., and Kelly, A., “The Properties of Fibre Composites,” Conference Proceedings of the National Physical Laboratory, IPC Science and Technology Press, 15–26 (1971).
Marshall, D.B., Cox, B.N., andEvans, A.G., “The Mechanics of Matrix Cracking in Brittle-matrix Fiber Composites,”Acta Metall.,31(11),2013–2021 (1985).
Budiansky, B., Hutchinson, J.W., andEvans, A.G., “Matrix Fracture in Fiber-reinforced Ceramics,”J. Mech. Phys. Solids,34(13),167–189 (1986).
McCartney, L.N., “New Theoretical Model of Stress Transfer Between Fibre and Matrix in a Unidirectionally Fibre-reinforced Composite,”Proc. Royal Soc. Lon.,A425,215–244 (1989).
Daniel I.M., Anastassopoulos, G., andLee, J.-W., “Experimental Micromechanics of Brittle-matrix Composites,”Micromechanics: Experimental Techniques,AMD 102,133–146 (1989).
Lee, J.-W. andDaniel, I.M., “Deformation and Failure of Longitudinally Loaded Brittle-matrix Composites,”ASTM STP 1120, American Society for Testing and Materials Philadelphia, PA, 204–221 (1992).
Daniel, I.M., Anastassopoulos, G., andLee, J.-W., “The Behavior of Ceramic Matrix Fiber Composites Under Longitudinal Loading,”Comp. Sci. Tech.,46,105–113 (1993).
Wooh, S.C. andDaniel, I.M., “Real-time Ultrasonic Investigation of Damage Development in Ceramic-matrix Composite,”Review of Progress in Quantitative Nondestructive Evaluation,11B Plenum Press,New York,1523–1530 (1992).
Wooh, S.C. andDaniel, I.M., “Real-time Ultrasonic Monitoring of Fiber-matrix Debonding in Ceramic-matrix Composite,”Mech. Mat.,17,379–388 (1994).
Luo, J.J., Wooh, S.C., andDaniel, I.M., “Acoustic Emission Study of Failure Mechanisms in Ceramic-matrix Composite Under Longitudinal Tensile Loading,”J. Comp. Mat.,29 1946–1961 (1995).
Daniel I.M., Anastassopoulos, G., andLee, J.-W., “Failure Mechanisms and Interfacial Shear Strength in Brittle-matrix Composites,”Advances in Experimental Mechanics and Biomimetrics, ed. W.F. Jones andJ.M. Whitney, American Society of Mechanical Engineers, New York,AD 29/AMD 146,57–69 (1992).
Luo, J.J. and Daniel, I.M., “An Experimental Study of Residual Stresses and Transverse Strain Reversal of Unidirectional Ceramic Composites at Elevated Temperature,”, Procedings of the SEM Spring Conference on Experimental and Applied Mechanics, Houston, TX, June 1–3, 75–77 (1998).
Daniel, I.M. andLee, J.W., “Damage Development in Composite Laminates Under Monotonic, Loading,”J. Comp. Tech. Research,12(2),98–102 (1990).
Reifsnider, K.L. andMasters, J.E., “An Investigation of Cumulative Damage Development in Quasi-isotropic Graphite/Epoxy Laminates,”Damage in Composite Materials, STP 775, ed. K.L. Reifsnider, American Society for Testing and Materials, Philadelphia, PA, 40–62 (1982).
Highsmith, A.L. andReifsnider, K.L., “Stiffness Reduction Mechanisms in Composite Laminates,”Damage in Composite Materials, ASTM STP 775, ed. K.L. Reifsnider, American Society for Testing and Materials, Philadelphia, PA, 103–117 (1982).
Hashin, Z., “Analysis of Cracked Laminates: A Variational Approach,”Mech. Mat.,4,121–136 (1985).
Ogin, S.L., Smith, P.A., andBeaumont, P.W.R., “Matrix Cracking and Stiffness Reduction During the Fatigue of [0/90] GFRP Laminates,”Comp. Sci. Tech.,22,23–31 (1985).
Lim, S.G. andHong, C.S., “Prediction of Transverse Cracking and Stiffness Reduction in Cross-ply Laminated Composites,”J. Comp. Mat.,23,695–713 (1989).
Lee, J.-W. andDaniel, I.M., “Progressive Transverse Cracking of Crossply Composite Laminates,”J. Comp. Mat.,24,1225–1243 (1990).
Tsai, C.-L., Daniel, I.M., and Lee, J.-W., “Progressive Matrix Cracking of Crossply Composite Laminates Under Biaxial Loading,” Microcracking-induced Damage in Composites, ed. G.J. Dvorak and D.C. Lagoudas, Proceedings of ASME 1990 Winter Annual Meeting, American Society of Mechanical Engineers, New York,AMD 111/MD 22,9–18 (1990).
Daniel, I.M. andTsai, C.-L., “Analytical/Experimental Stydy of Cracking in Composite Laminates Under Biaxial Loading”Comp. Eng.,1,355–362 (1991).
Tsai, C.-L. andDaniel, I.M., “The Behavior of Cracked Crossply Laminates Under Shear Loading,”Int. J. Solids Struct.,29,3251–3267 (1992).
Daniel, I.M., Lee, J.-W., andYaniv, G., “Damage Development and Property Degradation of Composite Material.,”Mechanics of Composite Materials, ed. G.J. Dvorak andN. Laws, American Society of Mechanical Engineers, New York,AMD 92,149–160 (1988).
Lee, J.-W., Daniel, I.M., andYaniv, G., “Fatigue Life Prediction of Cross-ply Composite Laminates,”ASTM STP 1012, Composite Materials: Fatigue and Fracture, ed. P.A. Lagace, American Society for Testing and Materials, Philadelphia, PA, 19–28 (1989).
Daniel, I.M. andCharewicz, A., “Fatigue Damage Mechanisms and Residual Properties of Graphite/Epoxy Laminates,”Eng. Fract. Mech.,25(5–6).793–808 (1986).
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Daniel, I.M. 1998 William M. Murray lecture. Experimental Mechanics 39, 1–19 (1999). https://doi.org/10.1007/BF02329295
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DOI: https://doi.org/10.1007/BF02329295