[1. Ali M.A., Sridharan S. (1988), A versatile model for interactive buckling of columns and beam-columns, International Journal of Solids and Structures, Vol. 24, 481–486.]Search in Google Scholar
[2. Ari-Gur J., Simonetta S.R. (1997), Dynamic pulse buckling of rectangular composite plates, Composites Part B, Vol. 28B, 301-308.]Search in Google Scholar
[3. Bangash M.Y.H. (2009), Shock. impact and explosion, Structural analysis and design, Springer, Verlag, New York, USA.]Search in Google Scholar
[4. Bao G., Jiang W., Roberts J.C. (1997), Analytic and finite element solutions for bending and buckling of orthotropic rectangular plates, Int J Solid Struct, Vol. 34, No. 14, 1797–1822.]Search in Google Scholar
[5. Barbero E., Tomblin J. (1993), Euler buckling of thin-walled composite columns, Thin-Walled Structures, Vol. 17, 237–258.]Search in Google Scholar
[6. Barbero E.J., Madeo A., Zagari G., Zinno R., Zucco G. (2014), Koiter asymptotic analysis of folded laminated composite plates, Composites Part B: Engineering, Vol.61, 267-274.]Search in Google Scholar
[7. Barsoum R.S., Gallagher R.H. (2009), Finite element analysis of torsional and torsional-flexural stability problems, Int. Journal for Numerical Methods in Engineering, Vol. 2, 335-352.10.1002/nme.1620020304]Search in Google Scholar
[8. Bazant Z.P., Cedolin L. (2010), Stability of Structures. Elastic. Inelastic. Fracture and Damage Theories, Oxford University Press, UK.10.1142/7828]Search in Google Scholar
[9. Becque J., Rasmusen K.J.R. (2009), Experimental investigation of local-overall interaction buckling of stainless steel lipped channel columns, J. Constructional Steel Research, Vol. 65, 1677–1684.10.1016/j.jcsr.2009.04.025]Search in Google Scholar
[10. Benito R., Sridharan S. (1985), Mode interaction in thin-walled structural members, Journal of Structural Mechanics, Vol. 12, 517-542.]Search in Google Scholar
[11. Benito R., Sridharan S. (1985). Interactive buckling analysis with finite strips, International Journal for Numerical Methods in Engineering, Vol. 21,145-161.]Search in Google Scholar
[12. Bradford M.A. (1990), Lateral-distortional buckling of tee-section beams, Thin-Walled Structures, Vol. 10, 13-30.]Search in Google Scholar
[13. Budiansky B. (1966), Dynamic buckling of elastic structures: criteria and estimates. Report SM-7, NASA CR-66072, USA.]Search in Google Scholar
[14. Budiansky B. (1966), Survey of some buckling problem. AIAA Journal, Vol. 4, 1505-1510.10.2514/3.3727]Search in Google Scholar
[15. Byskov E. (1979), Applicability of an asymptotic expansion for elastic buckling problems with mode interaction, AIAA Journal, Vol. 17, 630-633.]Search in Google Scholar
[16. Byskov E. (1988), Elastic buckling problem with infinitely many local modes, Mechanics of Structures and Machines, Vol. 15, 413-435.]Search in Google Scholar
[17. Byskov E., Hutchinson JW. (1977), Mode interaction in axially stiffened cylindrical shells, AIAA Journal, Vol.15, 941-48.]Search in Google Scholar
[18. Casciaro R., Garcea G., Attanasio G., Giordano F. (1998), Pertubative approach to elastic post-buckling analysis, International Journal of Computer & Structure, Vol. 66, 585-595.]Search in Google Scholar
[19. Chou S.M., Rhodes J. (1997), Review and compilation of experimental results on thin-walled structures. Computers & Structures, Vol. 65 No. 1, 47–67.]Search in Google Scholar
[20. Cui S., Cheong H.K., Hao H. (1999), Experimental study of dynamic buckling of plates under fluid-solid slamming. International Journal of Impact Engineering, Vol. 22, 675-691.10.1016/S0734-743X(99)00022-6]Search in Google Scholar
[21. Cui S., Hao H., Cheong H.K. (2002), Theoretical study of dynamic elastic buckling of columns subjected to intermediate velocity impact loads, International Journal of Mechanical Science, Vol. 44, 687-702.]Search in Google Scholar
[22. Debski H. (2013), Experimental investigation post-buckling behaviour of composite column with top-hat cross section, Maintenance and Reliability, Vol. 2, 105–109.]Search in Google Scholar
[23. Debski H., Kubiak T., Teter A. (2013a), Buckling and postbuckling behaviour of thin-walled composite channel section column”, Composite Structures Vol. 100, 195-204.10.1016/j.compstruct.2012.12.033]Search in Google Scholar
[24. Debski H., Kubiak T., Teter A. (2013b), Experimental investigation of channel-section composite profiles’ behaviour with various sequences of plies subjected to static compression, Thin-Walled Structures, Vol. 71, 147–154.10.1016/j.tws.2013.07.008]Search in Google Scholar
[25. Dvorkin E.N., Bathe KJ. (1984), A continuum mechanics based four-node shell element for general nonlinear analysis, Engineering Computations, Vol. 1, 77-88.]Search in Google Scholar
[26. Fafard M., Beauleu D., Dhatt C. (1987), Buckling of thin-walled members by finite elements, Computers and Structures, Vol. 25, 183-190.]Search in Google Scholar
[27. Garcea G., Madeo A., Zagari G. and Casciaro R. (2009), Asymptotic post-buckling FEM analysis using correlational formulation, International Journal of Solids and Structures, Vol. 46, 377–397.]Search in Google Scholar
[28. Garcea G., Salerno G., Casciaro R. (1999), Sanitizing of locking in Koiter perturbation analysis through mixed formulation, Computer Methods in Applied Mechanics and Engineering, Vol. 180,137-167.]Search in Google Scholar
[29. Gilat R., Aboudi J. (1995), Dynamic buckling of nonlinear resin matrix composite structures, Composite Structures, Vol. 32, 81-88.]Search in Google Scholar
[30. Goltermann P., Mollman H. (1989), Interactive buckling in thin-walled beams – II. Applications, International Journal of Solids and Structures, Vol. 25, 729-749.10.1016/0020-7683(89)90010-3]Search in Google Scholar
[31. Gupta R.K., Rao K.P. (1985), Instability of laminated composite thin-walled open-section beams, Composite Materials, Vol. 4, 299–313.]Search in Google Scholar
[32. Hancock G.J. (2003), Cold-formed steel structures, J. Constructional Steel Research, Vol. 59, 473–487.10.1016/S0143-974X(02)00103-7]Search in Google Scholar
[33. Hsu C.S. (1967), The effects of various parameters on the dynamic stability of shallow arch, Journal of Applied Mechanics, Vol. 34, 349-356.]Search in Google Scholar
[34. Hsu C.S. (1968), On dynamic stability of elastic bodies with prescribed initial conditions, International Journal of Non-Linear Mechanics, Vol. 4, 1-21.]Search in Google Scholar
[35. Hutchinson J.W., Budiansky B. (1966), Dynamic buckling estimates, AIAA Journal, Vol. 4, 525-530.]Search in Google Scholar
[36. Kappos AJ. Dynamic Loading and Design of Structures, Spon Press, Taylor & Francis Group, 2002.10.1201/9781482272000]Search in Google Scholar
[37. Kirsch U. (2004), Design-oriented Analysis of Structures, Unified Approach. Kluwer Academic Publishers, USA.]Search in Google Scholar
[38. Kleiber M., Kotula W., Saran M. (1987), Numerical analysis of dynamic quasi-bifurcation, Engineering Computations Vol. 4, 48-52.]Search in Google Scholar
[39. Koiter WT. (1976), General theory of mode interaction in stiffened plate and shell structures, WTHD Report 590, Delft.]Search in Google Scholar
[40. Koiter W.T., Pignataro M. (1974), An alternative approach to the interaction between local and overall buckling in stiffened panels, Buckling of Structures/Proceedings of IUTAM Symposium. Cambridge, 133–148.]Search in Google Scholar
[41. Kolakowski Z. (1987a), Mode interaction in thin-walled trapezoidal column under uniform compression, Thin-Walled Structures, Vol. 5, 329-342.10.1016/0263-8231(87)90024-3]Search in Google Scholar
[42. Kolakowski Z. (1987b), Mode interaction in wide plate with closed section longitudinal stiffeners under compression, Engineering Transactions, Vol. 35, 591-609.]Search in Google Scholar
[43. Kolakowski Z. (1988), Some aspects of mode interaction in thin-walled stiffened plate under uniform compression, Engineering Transactions, Vol. 36, 167-179.]Search in Google Scholar
[44. Kolakowski Z. (1989a), Interactive buckling of thin-walled beams with open and closed cross-section, Engineering Transactions, Vol. 37, 375-397.]Search in Google Scholar
[45. Kolakowski Z. (1989b), Mode interaction in wide plate with angle section longitudinal stiffeners under compression, Engineering Transactions, Vol. 37, 117-135.]Search in Google Scholar
[46. Kolakowski Z. (1989c), Some thoughts on mode interaction in thin-walled columns under uniform compression. Thin-Walled Structures, Vol. 7, 23-35.10.1016/0263-8231(89)90019-0]Search in Google Scholar
[47. Kolakowski Z. (1993a), Influence of modification of boundary conditions on load carrying capacity in thin-walled columns in the second order approximation, International Journal of Solids and Structures, Vol. 30, 2597-2609.10.1016/0020-7683(93)90101-C]Search in Google Scholar
[48. Kolakowski Z. (1993b), Interactive buckling of thin-walled beams with open and closed cross-sections, Thin-Walled Structures, Vol. 15, 159-183.10.1016/0263-8231(93)90025-6]Search in Google Scholar
[49. Kolakowski Z. (1996), Semi-analytical method for the analysis of the interactive buckling of thin-walled elastic structures in the second order approximation, International Journal of Solids and Structures, Vol. 33, 3779-3790.]Search in Google Scholar
[50. Kolakowski Z. (2007), Some aspects of dynamic interactive buckling of composite columns, Thin-Walled Structures, Vol. 45, 866–871.]Search in Google Scholar
[51. Kolakowski Z. (2009), Static and dynamic interactive buckling of composite columns, Journal of Theoretical and Applied Mechanics, Vol. 47, 177-192.]Search in Google Scholar
[52. Kolakowski Z. Mania R.J. (2013), Semi-analytical method versus the FEM for analyzing of the local post-buckling of thin-walled composite structures, Composite Structures, Vol. 97, 99–106.]Search in Google Scholar
[53. Kolakowski Z., Krolak M. (1995), Interactive elastic buckling of thin-walled closed orthotopic beam-columns, Engineering Transactions, Vol. 43, 571-590.]Search in Google Scholar
[54. Kolakowski Z., Krolak M. (2002), Modal coupled instabilities of thin-walled composite plate and shell structures, Composite Structures, Vol. 76, 303-313.]Search in Google Scholar
[55. Kolakowski Z., Krolak M., Kowal-Michalska K. (1999), Mode interactive buckling of thin-walled composite beam-columns regarding distortional deformations, International Journal of Engineering Sciences, Vol. 37, 1577-1596.]Search in Google Scholar
[56. Kolakowski Z., Kubiak T. (2005), Load-carrying capacity of thin-walled composite structures, Composite Structures, Vol. 67, 417–426.]Search in Google Scholar
[57. Kolakowski Z., Kubiak T. (2007), Interactive dynamic buckling of orthotropic thin-walled channels subjected to in-plane pulse loading, Composite Structures, Vol. 81, 222-232.]Search in Google Scholar
[58. Kolakowski Z., Teter A. (1995), Influence of local postbuckling behaviour on bending of thin-walled elastic beams with central intermediate stiffeners, Engineering Transactions, Vol. 43, No. 3, 383-396.]Search in Google Scholar
[59. Kolakowski Z., Teter A. (1995), Interactive buckling of thin-walled closed elastic column-beams with intermediate stiffeners, International Journal of Solid and Structures, Vol. 32, 1501-1516.]Search in Google Scholar
[60. Kolakowski Z., Teter A. (2000), Interactive buckling of thin–walled beam–columns with intermediate stiffeners or/and variable thickness, International Journal of Solid and Structures, Vol. 37, 3323–3344.]Search in Google Scholar
[61. Kounadis A.N., Gantes C., Simitses G. (1997), Nonlinear dynamic buckling of multi-dof structural dissipative system under impact loading, International Journal Impact Engineering, Vol. 19, 63-80.]Search in Google Scholar
[62. Krolak M., Kowal-Michalska K., Mania R.J., Swiniarski J. (2007), Experimental tests of stability and load carrying capacity of compression thin-walled multi-cell columns of triangular cross-section, Thin-Walled Structures, Vol. 45, 883–887.]Search in Google Scholar
[63. Krolak M., Mlotkowski A. (1996), Experimental analysis of post-buckling and collapse behaviour of thin-walled box-section beam, Thin-Walled Structures, Vol. 26, 287–314.]Search in Google Scholar
[64. Kubiak T. (2007), Criteria of dynamic buckling estimation of thin-walled structures, Thin-Walled Structures, Vol. 45, 888–892.]Search in Google Scholar
[65. Kubiak T. (2013), Static and dynamic buckling of thin-walled plate structures, Springer Verlag, London, UK.10.1007/978-3-319-00654-3]Search in Google Scholar
[66. Kwon Y.B., Kim B.S., Hancock G.J. (2007), Compression tests of high strength cold-formed steel channels with buckling interaction, J. Constructional Steel Research, Vol. 63, 1590–1602.10.1016/j.jcsr.2007.01.011]Search in Google Scholar
[67. Lee H.P., Harris P.J. (1979), Post-buckling strength of thin-walled members, Computers and Structures, Vol. 10, 689-702.]Search in Google Scholar
[68. Lee H.P., Harris P.J., Cheng-Tzu T.H. (1984), A nonlinear finite element computer program for thin-walled member, Thin-Walled Structures, Vol. 2, 355-376.]Search in Google Scholar
[69. Lindberg H.E. (ed.) (1987), Dynamic pulse buckling, Kluwer Academic Publishers.10.1007/978-94-009-3657-7]Search in Google Scholar
[70. Madenci E., Guven I. (2006), The finite element method and applications in engineering using ANSYS. Springer, Verlag, New York, USA.]Search in Google Scholar
[71. Magnucka-Blandzi E., Magnucki K. (2011), Buckling. and optimal design of cold-formed thin-walled beams: Review of selected problems, Thin-Walled Structures, Vol. 49, 554-561.]Search in Google Scholar
[72. Magnucka-Blandzi E., Paczos P., Wasilewicz P. (2012), Buckling study of thin-walled channel beams with double box-flanges in pure bendin, Strain, Vol. 48, No. 4, 317-325.]Search in Google Scholar
[73. Magnucki K., Paczos P., Kasprzak J. (2010), Elastic buckling of cold-formed thin-walled channel beams with drop flanges, Journal of Structural Engineering, Vol. 136, No. 7, 886-96.]Search in Google Scholar
[74. Manevich AI. (1981), Interaction of buckling modes of stiffened plate under compression, Stroitelnaya Mekhanika i Raschet Sooruzhenii, Vol.1, 24-29.]Search in Google Scholar
[75. Manevich AI. (1982), Theory of interaction buckling of stiffened thin-walled structures, Prikladnaya Matematika i Mekhanika, Vol.46, 337-345.]Search in Google Scholar
[76. Manevich AI. (1985), Stability of shells and plates with T-section stiffeners, Stroitelnaya Mekhanika i Raschet Sooruzhenii, Vol. 2, 3 4-38.]Search in Google Scholar
[77. Manevich AI. (1988), Interactive buckling of stiffened plate under compression, Mekhanika Tverdogo Tela, Vol. 5, 152-159.]Search in Google Scholar
[78. Mania R. (2005), Buckling analysis of trapezoidal composite sandwich plate subjected to in-plane compression, Composite Structures, Vol. 69, 482–490.]Search in Google Scholar
[79. Mania R., Kowal-Michalska K. (2007), Behaviour of composite columns of closed cross-section under in-plane compressive pulse loading, Thin-Walled Structures, Vol. 45, 902-905.]Search in Google Scholar
[80. Moellmann H. and Goltermann P. (1989), Interactive buckling in thin-walled beams; Part I: Theory; Part II: Applications, Inter. Journal of Solids and Structures, Vol. 25, 715–749.10.1016/0020-7683(89)90009-7]Search in Google Scholar
[81. Morris A. (2008), Practical guide to reliable finite element modelling. John Wiley&Sons Inc, USA.10.1002/9780470512111]Search in Google Scholar
[82. Niezgodzinski T., Kubiak T. (2005), The problem of stability of web sheets in box-girders of overhead cranes, Thin-Walled Structures Vol. 43, 1913-1925.]Search in Google Scholar
[83. Parlapalli M.R., Soh K.C., Shu D.W., Ma G. (2007), Experimental investigation of delamination buckling of stitched composite laminates, Composites: Part A; Vol. 38, 2024–2033.]Search in Google Scholar
[84. Petry D. and Fahlbusch G. (2000), Dynamic buckling of thin isotropic plates subjected to in-plane impact, Thin-Walled Structures Vol. 38, 267-283.]Search in Google Scholar
[85. Pignataro M., Luongo A. (1987), Asymmetric interactive buckling of thin-walled columns with initial imperfection, Thin-Walled Structures, Vol. 3, 365–386.]Search in Google Scholar
[86. Pignataro M., Luongo A. (1987), Multiple interactive buckling of thin-walled members in compression, Proceedings of the International Colloq. on Stability of Plate and Shell Structures. University Ghent, 235–240.]Search in Google Scholar
[87. Pignataro M., Luongo A., Rizzi N. (1985), On the effect of the local overall interaction on the postbuckling of uniformaly compressed channels, Thin-Walled Structures, Vol. 3, 283-321.]Search in Google Scholar
[88. Powell G., Klinger R. (1970) Elastic lateral buckling of steel beams, Journal of Structural Engineering ASCE, Vol. 96, No. 9, 1919-1932.]Search in Google Scholar
[89. Put B.M., Pi Y.L., Trahair N.S. (1999), Lateral buckling test on cold-formed channel beams, Journal of Structural Engineering ASCE, Vol. 125, No. 5, 532–539.]Search in Google Scholar
[90. Rajasekaran S., Murray D.W. (1973), Coupled local buckling in wide flange beam columns, Journal of Structural Engineering ASCE 1973;99(6):1003-23.]Search in Google Scholar
[91. Schokker A., Sridharan S., Kasagi A. (1996), Dynamic buckling of composite shells. Computers and Structures, Vol. 59, 43-55.10.1016/0045-7949(95)00244-8]Search in Google Scholar
[92. Simitses G.J. (1990), Dynamic stability of suddenly loaded structures, Springer Verlag, New York, USA.10.1007/978-1-4612-3244-5]Search in Google Scholar
[93. Simitses G.J., Hodges D.H. (2006), Fundamentals of structural stability, Butterworth-Heinemann, USA.]Search in Google Scholar
[94. Singer J., Arbocz J., Weller T. (1998), Buckling experiments. experimental methods in buckling of thin-walled structure. Basic concepts. columns. beams and plates, Vol. 1, John Wiley & Sons Inc., New York, USA.]Search in Google Scholar
[95. Singer J., Arbocz J., Weller T. (2002), Buckling experiments. experimental methods in buckling of thin-walled structure. shells built-up structures. Composites and additional topics, Vol. 2, John Wiley & Sons Inc., New York, USA.10.1002/9780470172995]Search in Google Scholar
[96. Sridharan S. (1983), Doubly symmetric interactive buckling of plate structures, International Journal of Solids and Structures, Vol. 19, 625-641.]Search in Google Scholar
[97. Sridharan S., Ali M.A. (1985), Interactive buckling in thin-walled beam-columns, Journal of Engineering Mechanics, ASCE, Vol. 111, 1470–1486.]Search in Google Scholar
[98. Sridharan S., Ali M.A. (1986), An improved interactive buckling analysis of thin-walled columns having doubly symmetric sections, International Journal of Solids and Structures, Vol. 22, 429–443.]Search in Google Scholar
[99. Sridharan S., Benito R. (1984), Columns static and dynamic interactive buckling, Journal of Engineering Mechanics, ASCE, Vol. 110, 49–65.]Search in Google Scholar
[100. Stronge W.J. (2000), Impact mechanics, Cambridge University Press, Cambridge, New York, USA.]Search in Google Scholar
[101. Tamura Y.S., Babcock C.D. (1975), Dynamic stability of cylindrical shell under step loading, Journal of Applied Mechanics, Vol. 42, 190-194.]Search in Google Scholar
[102. Teter A. (2007), Static and dynamic interactive buckling of isotropic thin–walled closed columns with variable thickness, Thin–Walled Structures, Vol. 45, 936–940.]Search in Google Scholar
[103. Teter A. (2010), Dynamic. multimode buckling of the thin-walled columns with subjected to in-plane pulse loading, Inter. J. Non-Linear Mechanics, Vol. 45, 207-218.10.1016/j.ijnonlinmec.2009.11.009]Search in Google Scholar
[104. Teter A. (2011), Dynamic critical load based on different stability criteria for coupled buckling of columns with stiffened open cross-sections, Thin-Walled Structures, Vol. 49, 589-595.]Search in Google Scholar
[105. Teter A., Kolakowski Z. (2003), Natural frequencies of thin-walled structures with central intermediate stiffeners or/and variable thickness, Thin–Walled Structures Vol. 41, 291–316.]Search in Google Scholar
[106. Teter A., Kolakowski Z. (2004), Interactive buckling and load carrying capacity of thin–walled beam–columns with intermediate stiffeners, Thin–Walled Structures, Vol. 42, 211–254.]Search in Google Scholar
[107. Teter A., Kolakowski Z. (2005), Buckling of thin-walled composite structures with intermediate stiffeners, Composite Structures Vol. 69, 421-428.]Search in Google Scholar
[108. Teter A., Kolakowski Z. (2013), Coupled dynamic buckling of thin-walled composite columns with open cross-sections, Composite Structures, Vol.95, 28–34.]Search in Google Scholar
[109. Thompson J.M.T., Hunt G.W. (1973), General Theory of Elastic Stability, Wiley, New York, USA.]Search in Google Scholar
[110. Toneff J.D., Stiemer S.F. and Osterrieder P. (1987), Local and overall buckling in thin-walled beams and columns. Journal of Structural Engineering ASCE, Vol. 113, No. 4, 769-786.]Search in Google Scholar
[111. Turvey G.J., Zhang Y. (2006), A computational and experimental analysis of the buckling. postbuckling and initial failure of pultruded GRP columns, Computers & Structures, Vol. 84, 1527–1537.10.1016/j.compstruc.2006.01.028]Search in Google Scholar
[112. Tvergaard V. (1973), Imperfections sensitivity of a wide integrally stiffened panel under compression, International Journal of Solids and Structures, Vol. 9,177-192.]Search in Google Scholar
[113. Tvergaard V. (1973), Influence of post-buckling behaviour on optimum design of stiffened panels, International Journal of Solids and Structures, Vol. 9, 1519–34.]Search in Google Scholar
[114. van der Heijden A.M.A. (ed.) (2009), WT. Koiter’s elastic stability of solids and structures, Cambridge University Press, UK.10.1017/CBO9780511546174]Search in Google Scholar
[115. Virgin L.N. (2007), Vibration of axially loaded structures, Cambridge University Press, UK.10.1017/CBO9780511619236]Search in Google Scholar
[116. Volmir S.A. (1972), Nonlinear dynamics of plates and shells, Science, Moscow, Russia.]Search in Google Scholar
[117. Warminski J., Teter A. (2012), Non-linear parametric vibrations of a composite column un-der uniform compression, Proceedings of the Institution of Mechanical Engineers. Part C: Journal of Mechanical Engineering Science, Vol. 226, 1921-1938.]Search in Google Scholar
[118. Weller T., Abramovich H., Yaffe R. (1989), Dynamic buckling of beams and plates subjected to axial impact, Composite Structures, Vol. 37, 835-851.]Search in Google Scholar
[119. White D.W., Abel J.F. (1990), Accurate and efficient nonlinear formulation of a nine-node shell element with spurious mode control, Computers and Structures, Vol. 35, 621-641.]Search in Google Scholar
[120. Wong P.M.H., Wang Y.C. (2007), An experimental study of pultruded glass fibre reinforced plastics channel columns at elevated temperatures, Computers & Structures, Vol. 81, 84–95.]Search in Google Scholar
[121. Zhang T., Liu T., Zhao Y. (2004), Nonlinear dynamic buckling of stiffened plates under in-plane impact load, Journal of Zheijang University Science, Vol. 5, 609-617.]Search in Google Scholar