GT Lab Delta Pic


Nagahdi, P.M., and C. Nevin De Silva (1955) "Deformation of Elastic Ellipsoidal Shells of Revolution," Proc. of the 2nd US National Congress of Applied Mechanics, pp. 333-343.

Galletly, G.D. and J.R.M. Radok (1959) "On the Accuracy of Some Shell Solutions," J of Applied Mechanics, Vol. 26, pp. 577-583.

Hartung, R.F. (1963) "Planar-Wound Filamentary Pressure Vessels," AIAA Journal, Vol. 1, No. 12, pp. 2842-2844.

Steele, C.R. and R.F. Hartung (1965) "Symmetric Loading of Orthotropic Shells of Revolution," J of Applied Mechanics, Vol. 32, pp. 337-345.

Flugge, W. (1973) Stresses in Shells, 2nd Edition, Springer-Verlag, New York.

Logan, D.L. and M. Hourani (1983) "Membrane Theory for Layered Ellipsoidal Shells," J. of Pressure Vessel Technology, Vol. 105, pp. 356-362.

Fettahlioglu, O. and G. Koenig (1988) "Stress and Deformation Analyses of Multi-Layer Orthotropic Pressure Vessels," Advances in Macro-Mechanics of Composites Materials Vessels and Components, PVP-Vol. 146, PD-Vol. 18, Ed. Hui and Kozik, ASME Pressure Vessels and Piping Conf., Pittsburgh, pp. 85-95.

Logan, D.L. and G.E.O. Widera (1989) "Membrane Theory for Anisotropic Laminated Shells of Revolution," J of Pressure Vessel Tech, Vol. 111, pp. 130-135.

Gramoll, K.C., F. Namiki and J. Onoda (1990a) "Dome Thickness of Filament Wound Pressure Vessels," Transactions of the Japan Society for Aeronautical and Space Sciences, Vol. 33, No. 100, pp. 66-79.

Gramoll, K.D., F. Namiki and J. Onoda (1990b) "General Structural Analysis of an Upper Stage Composite Rocket Motor Case," Proc. of the 17th International Symposium of Space Technology and Science, Tokyo, Japan, pp. 519-526.

© 1997 Kurt Gramoll, The University of Oklahoma, All Rights Reserved.