Anisotropic Elasticity and Composite Laminate Theory

  • Jack R. Vinson
Part of the Solid Mechanics and Its Applications book series (SMIA, volume 120)


Short Fiber Composite Hygrothermal Effect Mater Ials Force Material Laboratory Technical Report Composite Laminate Theory 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.


Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

10.10 References

  1. 10.1.
    Vinson, J.R. (1999) The Behavior of Sandwich Structures Composed of Isotropic and Composite Materials, CRC Press.Google Scholar
  2. 10.2.
    Vinson, J.R. (1993) The Behavior of Shells Composed of Isotropic and Composite Materials, Kluwer Academic Publishers, Dordrecht, The Netherlands.CrossRefzbMATHGoogle Scholar
  3. 10.3.
    Shames, I.H. (1975) Introduction to Solid Mechanics. New York: Prentice-Hall, Inc.Google Scholar
  4. 10.4.
    Carlsson, L.A. and Pipes, R.B. (1996) Experimental Characterization of Advanced Composite Materials, Prentice-Hall Publishing Co., Inc., Englewood Cliffs, N.J., Second Edition.Google Scholar
  5. 10.5.
    Halpin, J.C. and Tsai, S.W. (1967) Environmental Factors in Composite Materials Design, Air Force Materials Laboratory Technical Report, pp. 67–423.Google Scholar
  6. 10.6.
    Hashin, Z. (1972) Theory of Fiber Reinforced Materials, National Aeronautics and Space Administration Contractors Report 1974.Google Scholar
  7. 10.7.
    Christensen, R.M. (1979) Mechanics of Composite Materials. New York: John Wiley and Sons, Inc.Google Scholar
  8. 10.8.
    Hahn, H.T. (1980) Simplified Formulas for Elastic Moduli of Unidirectional Continuous Fiber Composites, Composites Technology Review, Fall.Google Scholar
  9. 10.9.
    Chou, T.-W. (1992) Microstructural Design of Fiber Composites, Cambridge University Press.Google Scholar
  10. 10.10.
    Tauchert, T.R. (1991) Thermally Induced Flexure, Buckling and Vibration of Composite Laminated Plates, Applied Mechanics Reviews, Vol. 44, No. 8, pp. 347–360.CrossRefGoogle Scholar
  11. 10.11.
    Argyris, J. and Tenek, L. (1997) Recent Advances in Computational Thermostructural Analysis of Composite Plate and Shells with Strong Nonlinearities, Applied Mechanics Reviews, Vol. 50, No. 5, pp. 285–305.CrossRefGoogle Scholar
  12. 10.12.
    Turvey, O.J. and Marshall, I.H. (1995) Buckling and Local Buckling of Composite Plates, Chapman and Hall, London.CrossRefGoogle Scholar
  13. 10.13.
    Noor, A.K. and Burton, W.S. (1992) Computational Models for High Temperature Multilayered Composite Plates and Shells, Applied Mechanics Reviews, Vol. 45, No. 10, pp. 414–446.CrossRefGoogle Scholar
  14. 10.14.
    Huang, N.N. and Tauchert, T.R. (1988) Large Deformation of Antisymmetric Angle Ply Laminates Resulting from Non-uniform Temperature Loadings, Journal of Themral Stresses, Vol. 11, pp. 287–297.CrossRefGoogle Scholar
  15. 10.15.
    Springer, G.S. (1984) Model for Predicting the Mechanical Properties of Composites at Elevated Temperatures, Environmental Effects on Composite Materials, Vol. 2, pp. 151–161.Google Scholar
  16. 10.16.
    Milke, J.A. and Vizzini, A.J. (1991) Thermal Response of Fire Exposed Composites, Journal of Composites Technology and Research, Vol. 13, pp. 145–151.CrossRefGoogle Scholar
  17. 10.17.
    Sun, C.T. and Chen, J.K. (1982) Transient Thermal Stress Analysis in Graphite-Epoxy Composite Laminates, Developments in Theoretical and Applied Mechanics, Vol. 11, pp. 309–328.Google Scholar
  18. 10.18.
    Vinson, J.R., Walker, W.J., Pipes, R.B. and Ulrich, O.R. (1977) The Effects of Relative Humidity and Elevated Temperatures on Composite Structures, Air Force Office of Scientific Research Technical Report 77-0030, February.Google Scholar
  19. 10.19.
    Pipes, R.B., Vinson, J.R. and Chou, T.W. (1976) On the Hygrothermal Response of Laminated Composite Systems, Journal of Composite Materials, April, pp. 130–148.Google Scholar
  20. 10.20.
    ASTM Standard D5229-92 Test Method for Moisture Absorption Properties and Equilibrium Conditioning of Polymer Matrix Composite Materials.Google Scholar
  21. 10.21.
    Shen, C. and Springer, G.S. (1981) Environmental Effect on the Elastic Moduli of Composite Material, Ed. G.S. Springer, Technomic Publishing Co., Inc.Google Scholar
  22. 10.22.
    Woldesenbet, E. (1995) High Strain Rate Properties of Composites, Ph.D. Dissertation, Department of Mechanical Engineering, University of Delaware, January.Google Scholar
  23. 10.23.
    Zhu, R.P. and Sun, C.T. (2003) Effect of Fiber Orientation and Elastic Constants on Coefficients of Thermal Expansion in Laminates, Mechanics of Advanced Materials and Structures, Vol. 10, No. 2, April–June, pp. 99–107.CrossRefGoogle Scholar
  24. 10.24.
    Christensen, R.M. (1981) Theory of Viscoelasticity: An Introduction, Academic Press, New York, 2nd Edition.Google Scholar
  25. 10.25.
    Jurf, R.A. and Vinson, J.R. (1985) Effect of Moisture on the Static and Viscoelastic Shear Properties of Epoxy Adhesives, Journal of Materials Science, Vol. 20, pp. 2979–2989.CrossRefGoogle Scholar
  26. 10.26.
    Wilson, D.W. and Vinson, J.R. (1984) Viscoelastic Analysis of Laminated Plate Buckling, AIAA Journal, Vol. 22, No. 7, July, pp. 982–988.CrossRefzbMATHGoogle Scholar
  27. 10.27.
    Wilson, D.W. and Vinson, J.R. (1985). Viscoelastic Effects on the Buckling Response of Laminated Columns, ASTM Special Publicationh, 864, &quote;Recent Advances in Composites in the United States and Japan.Google Scholar
  28. 10.28.
    Hu, H. and Sun, C.T. (2003) The Equivalence of Moisture and Temperature in Physical Aging of Polymeric Composites, Vol. 37, No. 10, pp. 913–928.Google Scholar
  29. 10.29.
    Lindholm, V.S. (1964) Some Experiments With the Split Hopkinson Pressure Bar, Journal of Mechanics and Physics of Solids, Vol. 12, pp. 317–335.CrossRefGoogle Scholar
  30. 10.30.
    Daniel, I.M., La Bedz, R.H. and Liber, T. (1981) New Method for Testing Composites at Very High Strain Rates, Experimental Mechanics, February.Google Scholar
  31. 10.31.
    Nicholas, T. (1981) Tensile Testing of Materials at High Rates of Strain, Experimental Mechanics, pp. 177–185, May.Google Scholar
  32. 10.32.
    Zukas, J.A. (1982) Impact Dynamics, John Wiley and Sons, New York, N.Y.Google Scholar
  33. 10.33.
    Sierakowski, R.L. and Chaturvedi, S.K. (1997) Dynamic Loading and Characterization of Fiber-Reinforced Composites, Wiley Interscience.Google Scholar
  34. 10.34.
    Sierakowski, R.L. (1997) Strain Rate Effects in Composites, Applied Mechanics Reviews, Vol. 50, No. 12, pp. 741–761, December.CrossRefGoogle Scholar
  35. 10.35.
    Rajapakse, Y. and Vinson, J.R. (1995) High Strain Rate Effects on Polymer, Metal and Ceramic Matrix Composites and Other Advanced Materials, ASME Bound Volume AD-Vol. 48.Google Scholar
  36. 10.36.
    Abrate, S. (1991) Impact on Laminated Composite Materials, Applied Mechanics Reviews, Vol. 44, No. 4, pp. 155–190, April.CrossRefGoogle Scholar
  37. 10.37.
    Abrate, S. (1994) Impact on Laminated Composites: Recent Advances, Applied Mechanics Reviews, Vol. 47, No. 11, pp. 517–544, November.CrossRefGoogle Scholar
  38. 10.38.
    Song, S., Vinson, J.R. and Crane, R.M. (2002) Low Temperature Effects on E-Glass/Urethane Composite Materials of High Strain Rates, Proceedings of the43rd Annual AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, April.Google Scholar
  39. 10.39.
    Song, S. and Vinson, J.R. (2002) Low Temperature Effects on G30-500/EH-80 Composite Material Properties at High Strain Rates, Fourteenth U.S. National Congress on Theoretical and Applied Mechanics, June.Google Scholar
  40. 10.40.
    Song, S. and Vinson, J.R. (2002) Low Temperature Effects on the Ultimate Strength of IM7/977-3 Composites at High Strain Rates, Proceedings of the 17th Annual Technical Conference of the American Society for Composites, October.Google Scholar
  41. 10.41.
    Song, S. and Vinson, J.R. (2002) Low Temperature Effects on IM7/977-3 Cross-Ply Composite Material Properties at High Strain Rates, Proceedings of the 10 th Japan-U.S. Conference on Composite Materials, September 16–18.Google Scholar
  42. 10.42.
    Sloan, J.G. (1979) The Behavior of Rectangular Composite Material Plates Under Lateral and Hygrothermal Loads, MMAE Thesis, University of Delaware (also AFOSR-TR-78-1477, July 1978).Google Scholar
  43. 10.43.
    Tsai, S.W. and Pagano, N.J. (1968) Invariant Properties of Composite Materials, Tsai, S.W. et al., eds., Composite Materials Workshop, Technomic Publishing Co., Inc., Lancaster, PA, pp. 233–253.Google Scholar
  44. 10.44.
    Reissner, E. (1950) On a Variational Theorem in Elasticity, J. Math. Phys., 29, pp. 90.MathSciNetzbMATHGoogle Scholar
  45. 10.45.
    Mindlin, R.D. (1951) Influence of Rotatory Inertia and Shear on Flexural Motions of Isotropic Elastic Plates, Journal of Applied Mechanics, pg. 73.Google Scholar
  46. 10.46.
    Jones, R.M. (2002) Mechanics of Composite Materials, Second Edition, R.T. Edwards, Flourtown, PA.Google Scholar

Copyright information

© Springer 2005

Authors and Affiliations

  • Jack R. Vinson
    • 1
  1. 1.Center for Composite Materials and College of Marine Studies, Department of Mechanical Engineering, Spencer LaboratoryUniversity of DelawareNewarkUSA

Personalised recommendations