Abstract
This article reports an experimental study carried out with the aim of quantifying performance and failure modes of sandwich structures when subjected to impulsive blast loading. In particular, performance enhancement with respect to solid panels of equal mass per unit area is assessed. Likewise, the optimal distribution of the mass per unit area in the design of sandwich structures is investigated by comparing the behavior of sandwich structures with various distributions of face sheets thickness. By employing a previously developed FSI experiment, the study confirmed that usage of sandwich structures is beneficial and that performance enhancements, in terms of maximum panel deflection, as high as 68% are possible. The study also confirms theoretical and computational analyses suggesting that use of soft cores maximizes the benefits. Another interesting aspect revealed by this work is that the level of enhancement is highly related to the applied normalized impulse. The same distribution of mass per unit area between face sheets resulted in different normalized maximum deflection. A better performance enhancement was achieved at lower impulses. Here again, failure modes and their sequence seem to be the directly related to this finding. The work here reported clearly reveals a number of important features in the study of lightweight structures and points out to the synergies between structure geometry, materials, manufacturing methods, and threat levels as manifested by the strength of the impulse. Further theoretical and computational studies accounting for experimentally observed failure modes and its interdependence with the fabrication methods is needed to achieve additional predictive capabilities.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Liang Y, Spuskanyuk AV, Flores SE, Hayhurst DR, Hutchinson JW, McMeeking RM, Evans AG (2007) The response of metallic sandwich panels to water blast. J Appl Mech 74:81–99.
Hutchinson JW, Xue ZY (2005) Metal sandwich plates optimized for pressure impulses. Int J Mech Sci 47:545–569.
Xue ZY, Hutchinson JW (2004) A comparative study of impulse-resistant metal sandwich plates. Int J Impact Eng 30:1283–1305.
Deshpande VS, Fleck NA (2005) One-dimensional response of sandwich plates to underwater shock loading. J Mech Phys Solids 53:2347–2383.
Fleck NA, Deshpande VS (2004) The resistance of clamped sandwich beams to shock loading. J Appl Mech 71:386–401.
Espinosa HD, Lee S, Moldovan N (2006) A novel fluid structure interaction experiment to investigate deformation of structural elements subjected to impulsive loading. Exp Mech 46:805–824.
Lee S (2005) Dynamic failure of blast-resistant structures subjected to impulsive loading. Ph.D. Thesis, Northwestern University, Evanston, IL, USA
Wei Z, Deshpande VS, Evans AG, Dharmasena KP, Queheillalt DT, Wadley HNG, Murty Y, Elzey RK, Dudt P, Chen Y, Knight D, Kiddy K (2008) The resistance of metallic plates to localized impulse. J Mech Phys Solids 56:2074–2091.
Mori LF, Lee S, Xue ZY, Vaziri A, Queheillalt DT, Dharmasena KP, Wadley HNG, Hutchinson JW, Espinosa HD (2007) Deformation and fracture modes of sandwich structures subjected to underwater impulsive loads. J Mech Mater Struct 2:1981–2006.
Smith PD, Hetherington JG (1994) Blast and ballistic loading of structures. Butterworth-Heinemann, Oxford.
Radford DD, Fleck NA, Deshpande VS (2006) The response of clamped sandwich beams subjected to shock loading. Int J Impact Eng 32:968–987.
Rathbun HJ, Rodford DD, Xue ZY, He MY, Yang J, Deshpande VS, Fleck NA, Hutchinson JW, Zok FW, Evans AG (2006) Performance of metallic honeycomb-core sandwich beams under shock loading. Int J Solids Struct 43:1746–1763.
Acknowledgements
This research was supported by the Office of Naval Research through MURI grant no. 123163-02-N00014-02-1-0700 to Harvard University, University of California at Santa Barbara, and Northwestern University (Program Manager Dr. R. Barsoum) and awards N00014-01-1-1051 to the University of Virginia and N00014-07-1-1139 to Northwestern University (Program Manager Dr. D. Shifler).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Mori, L.F., Queheillalt, D.T., Wadley, H.N.G. et al. Deformation and Failure Modes of I-Core Sandwich Structures Subjected to Underwater Impulsive Loads. Exp Mech 49, 257–275 (2009). https://doi.org/10.1007/s11340-008-9166-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11340-008-9166-9