Argiris, J. M., and Kelsey, S., 1960, *Energy Theorems and Structural Analysis*, Butterworths.

Bruhn, E. F., 1973, *Analysis and Design of Flight Vehicle Structures*, Tri-State Offset Company.

Mustafa, B. A. J., and Ali, R., 1987, “Prediction of Natural Frequency of Vibration of Stiffened Cylindrical Shell and Orthogonally Stiffened Curved Panels,” J. Sound Vib., 113(2), pp.317–327.

[CrossRef]
Langley, R. S., 1992, “A Dynamic Stiffness Technique for the Vibration Analysis of Stiffened Shell Structures,” J. Sound Vib., 156(3), pp.521–540.

[CrossRef]Hoppman, W. H., 1958, “Some Characteristics of the Flexural Vibrations of Orthogonally Stiffened Cylindrical Shells,” J. Acoust. Soc. Am., 30, pp.77–83.

[CrossRef]Mecitoglu, Z., and Dokmeci, C., 1990, “Vibration Analysis of Stiffened Circular Thin Shells,” Proceedings of the International Congress of Aeronautical Sciences Conference ICAS ’90.

Fisher, L., 1954, “Design of Cylindrical Shells With Edge Beams,” ACI J., 274, pp.481–488.

Gibson, J. E., 1968, *The Design of Shell Roofs*, EFN Spon Ltd, London.

Scordelis, A. C., and Lo, K. S., 1964, “Design of Cylindrical Shells With Edge Beams,” ACI J., 61, pp.539–561.

Kohnke, P. C., and Schnobrich, W. C., 1972, “Analysis of Eccentrically Stiffened Cylindrical Shells,” ASCE J. Struct. Div., 98(7), pp.1493–1510.

Ferguson, G. H., and Clark, R. D., 1979, “A Variable Thickness, Curved Beam and Shell Stiffening Element With Shear Deformations,” Int. J. Numer. Method Eng., 4, pp.581–592.

[CrossRef]Bouberguig, A., and Jirousek, J., 1980, “Calcul par elements finis des coques nervurees et precontraintes,” Proceedings of the International Congress of Aeronautic 2nd International Congress for Numerical Methods for Engineering Sciences Conference ICAS ’90.

Assan, A. E., 1999, “Analysis of Multiple Stiffened Barrel Shell Structures by Strain-Based Finite Elements,” Thin-Walled Struct., 35, pp.233–253.

[CrossRef]Buermann, P., Rolfes, R., Tessmer, J., and Schagerl, M., 2006, “A Semi-Analytical Model for Local Post-Buckling Analysis of Stringer- and Frame-Stiffened Cylindrical Panels,” Thin-Walled Struct., 44, pp.102–114.

[CrossRef]Timoshenko, S. P., and Woinowski-Krieger, S., 1970, *Theory of Plate and Shells*, McGraw-Hill, New York.

Sokolnikoff, I. S., 1956, *Mathematical Theory of Elasticity*, McGraw-Hill, New York.

El Fatmi, R., 2007, “Non-Uniform Warping Including the Effects of Torsion and Shear Forces. Part II: Analytical and Numerical Applications,” Int. J. Solids Struct., 44(18–19), pp.5930–5952.

[CrossRef]El Fatmi, R., 2007, “Non-Uniform Warping Including the Effects of Torsion and Shear Forces. Part I: A General Beam Theory,” Int. J. Solids Struct., 44(18–19), pp.5912–5929.

[CrossRef]Berdichevsky, V. L., Armanios, E., and Badir, A., 1992, “Theory of Anisotropic Thin-Walled Closed-Cross-Section Beams,” Composites Eng., 2(5–7), pp.411–432.

[CrossRef]Volovoi, V. V., and Hodges, D. H., 2000, “Theory of Anisotropic Thin-Walled Beams,” J. Appl. Mech., 67, pp.453–459.

[CrossRef]Yu, W., Volovoi, V. V., Hodges, D. H., and Hong, X., 2002, “Validation of the Variational Asymptotic Beam Sectional Analysis (VABS),” AIAA J., 40, pp.2105–2113.

[CrossRef]Schardt, R., 1966, “Eine Erweiterung der Technischen Biegetheorie zur Berechnung Prismatischer Faltwerke,” Der Stahlbau, 35, pp.161–171.

Schardt, R., 1989, *Verallgemeinerte Technische Biegetheorie*, Springer-Verlag, Berlin.

Silvestre, N., and Camotim, D., 2002, “First-Order Generalised Beam Theory for Arbitrary Orthotropic Materials,” Thin-Walled Struct., 40(9), pp.791–820.

[CrossRef]Carrera, E., 1995, “A Class of Two Dimensional Theories for Multilayered Plates Analysis,” Atti Accademia delle Scienze di Torino, Memorie Scienze Fisiche, 19–20, pp.49–87.

Carrera, E., 2002, “Theories and Finite Elements for Multilayered, Anisotropic, Composite Plates and Shells,” Arch. Comput. Methods Eng., 9(2), pp.87–140.

[CrossRef]Carrera, E., 2003, “Theories and Finite Elements for Multilayered Plates and Shells: A Unified Compact Formulation With Numerical Assessment and Benchmarking,” Arch. Comput. Methods Eng., 10(3), pp.216–296.

[CrossRef]Carrera, E., and Giunta, G., 2010, “Refined Beam Theories Based on a Unified Formulation,” Int. J. Appl. Mech., 2(1), pp.117–143.

[CrossRef]Carrera, E., Giunta, G., Nali, P., and Petrolo, M., 2010, “Refined Beam Elements With Arbitrary Cross-Section Geometries,” Comput. Struct., 88(5–6), pp.283–293.

[CrossRef]Carrera, E., Petrolo, M., and Zappino, E., 2012, “Performance of CUF Approach to Analyze the Structural Behavior of Slender Bodies,” J. Struct. Eng., 138, pp.285–297.

[CrossRef]Carrera, E., Petrolo, M., and Nali, P., 2011, “Unified Formulation Applied to Free Vibrations Finite Element Analysis of Beams With Arbitrary Section,” Shock Vib., 18(3), pp.485–502.

[CrossRef]
Carrera, E., and Petrolo, M., 2012, “Refined Beam Elements With Only Displacement Variables and Plate/Shell Capabilities,” Meccanica, 47(3), pp.537–556.

[CrossRef]Carrera, E., and Petrolo, M., 2011, “On the Effectiveness of Higher-Order Terms in Refined Beam Theories,” J. Appl. Mech., 78(2), p. 021013.

[CrossRef]Tsai, S. W., 1988, *Composites Design*, 4th ed., Think Composites, Dayton, OH.

Reddy, J. N., 2004, *Mechanics of Laminated Composite Plates and Shells. Theory and Analysis*, 2nd ed., CRC Press, Boca Raton, FL.

Bathe, K., 1996, *Finite Element Procedure*, Prentice-Hall, Upper Saddle River, NJ.

Vlasov, V. Z., 1961, *Thin-Walled Elastic Beams*, Israel Program for Scientific Translations, Jerusalem.

Kim, N. I., and Kim, M. Y., 2005, “Exact Dynamic/Static Stiffness Matrices of Non-Symmetric Thin-Walled Beams Considering Coupled Shear Deformation Effects,” Thin-Walled Struct., 43, pp.701–734.

[CrossRef]