Energy Absorption by Thin-Walled Tubes with various Thicknesses in Rectangular and Square Sections under Different Quasi-Static Conditions: Experimental and Numerical Studies
Subject Areas : Mechanical EngineeringK. Hoseini Safari 1 , Y. Mohammadi 2 , Sajjad Dehghanpour 3
1 - Faculty of Industrial and Mechanical Engineering, Islamic Azad University, Qazvin Branch, Qazvin, Iran
2 - Faculty of Industrial and Mechanical Engineering, Islamic Azad University, Qazvin Branch, Qazvin, Iran
3 - Department of Mechanical Eng., Toyserkan Branch, Islamic Azad University, Toyserkan, Iran
Keywords:
Abstract :
[1] Carney, J. F, III, Austin CD, “Reid SR. Modeling of steel tube vehicular crash cushion”, ASCE Transportation Engineering 1983, Vol. 109, No. 3, pp. 331-46.
[2] Reid, S.R, Drew, SLK, Carney, J. F, III. “Energy absorbing capacities of braced metal tubes”, International Journal of Mechanical Sciences 1983, Vol. 25, No. 9-10, pp. 649-67.
[3] Watson, A. R, Reid, S. R, Johnson, W., and Thomas, S. G., “Large deformations of thin-walled circular tubes under transverse loading-II”, International Journal of Mechanical Sciences 1976, Vol. 18, pp. 387-97.
[4] Watson, A. R, Reid, S. R, Johnson, W., “Large deformations of thin-walled circular tubes under transverse loading-III”, International Journal of Mechanical Sciences 1976, Vol.18, pp. 501-9.
[5] Johnson, W., Reid, S. R, and Reddy, T. Y., “The compression of crossed layers of thin tubes”, International Journal of Mechanical Sciences 1977, Vol. 19, pp. 423-37.
[6] Mutchler, L. D., “Energy absorption of aluminum tubing”, Transactions of ASME, Journal of Applied Mechanics 1960, Vol. 27,pp. 740-3.
[7] DeRuntz, J. A, Hodge, P. G., “Crushing of a tube between rigid plates”, Transactions of ASME, Journal of Applied Mechanics 1963, Vol. 30, pp. 391-5.
[8] Gupta, N. K., Sekhon, G. S. and Gupta, P. K., “Study of lateral compression of round metallic tubes”, Thin Walled Structures, 2005, No. 43, pp. 895-922.
[9] Niknejad, A., Liaghat, G. H., Moslemi Naeini, H., and Behravesh, A. H., “Experimental and theoretical investigation of the first fold creation in thin walled columns”, Acta Mechanica Solida Sin 2010; Vol. 23, pp. 353–60.
[10] Niknejad, A., Liaghat, G. H., Moslemi Naeini, H., and Behravesh, A.H., “Theoretical and experimental studies of the instantaneous folding force of the polyurethane foam-filled square honeycombs”, Mater Des 2011, Vol. 32, pp. 69–75.
[11] Niknejad, A., Abedi, M. M, Liaghat, G. H, and Zamani Nejad, M., “Prediction of the mean folding force during the axial compression in foam-filled grooved tubes by theoretical analysis”, Mater Des 2012, Vol. 37, pp. 144–51.
[12] Abedi, M. M, Niknejad, A., Liaghat, G. H, and Zamani Nejad, M., “Theoretical and experimental study on empty and foam-filled columns with square and rectangular cross section under axial compression”, Int J Mech Sci 2012, Vol. 65, pp. 134–46.
[13] Yan, L., Chouw, N., “Crashworthiness characteristics of flax fibre reinforced epoxy tubes for energy absorption application”, Mater Des 2013, Vol. 51, pp. 629–40.
[14] Yan, L., Chouw, N., Jayaraman, K., “Effect of triggering and polyurethane foam-filler on axial crushing of natural flax/epoxy composite tubes”, Mater Des 2014, Vol. 56, pp. 528–41.
[15] Mahdi, E., Sultan, H., Hamouda, A. M. S, Omer, A. A., and Mokhtar, A. S., “Experimental optimization of composite collapsible tubular energy absorber device”, Thin-Walled Struct 2006, Vol. 44, pp. 1201–11.
[16] Zhang, Y., Sun, G., Li, G., Luo, Z., and Li, Q., “Optimization of foam-filled bitubal structures for crashworthiness criteria”, Mater Des 2012, Vol. 38, pp. 99–109.
[17] Arnold, B., Altenhof, W., “Experimental observations on the crush characteristics of AA6061 T4 and T6 structural square tubes with and without circular discontinuities”, Int J Crashworthines 2004, Vol. 9, pp. 73–87.
[18] Cheng, Q., Altenhof, W., and Li, L., “Experimental investigations on the crush behavior of AA6061-T6 aluminum square tubes with different types of through-hole discontinuities”, Thin-Walled Struct 2006, Vol. 44, pp. 441–54.
[19] Alavi Nia, A., Badnava, H., Fallah Nejad, Kh., “An experimental investigation on crack effect on the mechanical behavior and energy absorption of thin-walled tubes”, Mater Des 2011, Vol. 32, pp. 594–607.
