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Dharmasena, K. P.; Queheillalt, D. T.; Wadley, H. N. G.; Dudt, P.; Chen, Y.; Knight, D.; Evans, A. G.; Deshpande, V. S.

Dynamic compression of metallic sandwich structures during planar impulsive loading in water. (English) Zbl 1476.74027

Eur. J. Mech., A, Solids 29, No. 1, 56-67 (2010).
Summary: The compressive response of rigidly supported stainless steel sandwich panels subject to a planar impulsive load in water is investigated. Five core topologies that spanned a wide range of crush strengths and strain-dependencies were investigated. They included a (i) square-honeycomb, (ii) triangular honeycomb, (iii) multi-layer pyramidal truss, (iv) triangular corrugation and (v) diamond corrugation, all with a core relative density of approximately 5%. Quasi-statically, the honeycombs had the highest peak strength, but exhibited strong softening beyond the peak strength. The truss and corrugated cores had significantly lower strength, but a post yield plateau that extended to beyond a plastic strain of 60% similar to metal foams. Dynamically, the transmitted pressures scale with the quasi-static strength. The final transmitted momentum increased slowly with core strength (provided the cores were not fully crushed). It is shown that the essential aspects of the dynamic response, such as the transmitted momentum and the degree of core compression, are captured with surprising fidelity by modeling the cores as equivalent metal foams having plateau strengths represented by the quasi-static peak strength. The implication is that, despite considerable differences in core topology and dynamic deformation modes, a simple foam-like model replicates the dynamic response of rigidly supported sandwich panels subject to planar impulsive loads. It remains to ascertain whether such foam-like models capture more nuanced aspects of sandwich panel behavior when locally loaded in edge clamped configurations.

Cited in 1 Document

MSC:

74F10 Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.)
74E30 Composite and mixture properties
74J40 Shocks and related discontinuities in solid mechanics

Keywords:

sandwich panel; transmitted pressure; fluid-structure interaction; metal foam; lattice; honeycomb structure
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References:

[1] Bleich, H. H.; Sandler, I. S., Interaction between structures and bilinear fluids, International Journal of Solids and Structures, 6, 617-639 (1970) · Zbl 0195.27202
[2] Chen, Y.-C.; Dudt, P., Evaluation of Stainless Steel Periodic cellular Materials under Quasi-Static Loading Conditions (March 2005), Naval Surface Warfare Center, Carderock Division Report NSWCCD-66-TR-2005/05.
[3] Cote, F.; Deshpande, V. S.; Fleck, N. A.; Evans, A. G., The out-of-plane compressive behavior of metallic honeycombs, Materials Science and Engineering A, 380, 272-278 (2004)
[4] Cote, F.; Deshpande, V. S.; Fleck, N. A.; Evans, A. G., The compressive and shear responses of corrugated and diamond lattice materials, International Journal of Solids and Structures, 43, 6220-6242 (2006) · Zbl 1120.74416
[5] Deshpande, V. S.; Fleck, N. A., One-dimensional response of sandwich plates to underwater shock loading, Journal of the Mechanics and Physics of Solids, 53, 2347-2383 (2005) · Zbl 1176.74060
[6] Dharmasena, K. P.; Queheillalt, D. T.; Wadley, H. N.G.; Chen, Y.; Dudt, P.; Knight, D.; Wei, Z.; Evans, A. G., Dynamic response of a multilayer prismatic structure to impulsive loads incident from water, International Journal of Impact Engineering, 36, 632-643 (2009)
[7] Fleck, N. A.; Deshpande, V. S., The resistance of clamped sandwich beams to shock loading, Journal of Applied Mechanics, 71, 386-401 (2004) · Zbl 1111.74404
[8] Hutchinson, J. W.; Xue, Z., Metal sandwich plates optimized for pressure impulses, International Journal of Mechanical Sciences, 47, 545-569 (2005) · Zbl 1192.74294
[9] Knight, D.; Chen, Y.-C.; Lewis, W.; Dudt, P., Comparison of Explosive-Loaded Periodic Cellular Structures using a Dynocrusher Device (Oct 2005), Naval Surface Warfare Center, Carderock Division Report NSWCCD-66-TR-2005/23.
[10] Krieg, R. O.; Key, S. W., Transient shell response by numerical time integration, International Journal of Numerical Methods in Engineering, 7, 273-286 (1973)
[11] Liang, Y.; Spuskanyuk, A. V.; Flores, S. E.; Hayhurst, D. R.; Hutchinson, J. W.; McMeeking, R. M.; Evans, A. G., The response of metallic sandwich panels to water blast, Journal of Applied Mechanics, 74, 81-99 (2007) · Zbl 1111.74517
[12] McShane, G. J.; Deshpande, V. S.; Fleck, N. A., The underwater blast resistance of metallic sandwich beams with prismatic lattice cores, Journal of Applied Mechanics, 74, 352-364 (2007) · Zbl 1111.74552
[13] Mori, L. F.; Lee, S.; Xue, Z.; Vaziri, A.; Queheillalt, D. T.; Dharmasena, K. P.; Wadley, H. N.G.; Hutchinson, J. W.; Espinosa, H. D., On the behavior of sandwich structure subjected to under water impulse loads, Journal of Mechanics of Materials and Structures, 2, 10, 1981-2006 (2007)
[14] Queheillalt D.T., Carbajal G., Peterson G.P., Wadley H.N.G.,2008. A multifunctional heat pipe sandwich panel structure. International Journal of Heat and Mass Transfer 51, 312-326.; Queheillalt D.T., Carbajal G., Peterson G.P., Wadley H.N.G.,2008. A multifunctional heat pipe sandwich panel structure. International Journal of Heat and Mass Transfer 51, 312-326. · Zbl 1140.80362
[15] Radford, D. D.; Deshpande, V. S.; Fleck, N. A., The use of metal foam projectiles to simulate shock loading on a structure, International Journal of Impact Engineering, 31, 1152-1171 (2005)
[16] Tian, J.; Lu, T. J.; Hodson, H. P.; Queheillalt, D. T.; Wadley, H. N.G., Cross flow heat exchange of textile cellular metal core sandwich panels, International Journal of Heat and Mass Transfer, 50, 2521-2536 (2007) · Zbl 1119.80355
[17] Tilbrook, M. T.; Deshpande, V. S.; Fleck, N. A., The impulsive response of sandwich beams: Analytical and numerical investigation of regimes of behaviour, Journal of the Mechanics and Physics of Solids, 54, 2242-2280 (2006) · Zbl 1120.74588
[18] Wadley, H. N.G., Multifunctional periodic cellular metals, Philosophical Transactions of the Royal Society A, 364, 31-68 (2006)
[19] Wadley, H. N.G.; Dharmasena, K. P.; Queheillalt, D. T.; Chen, Y.; Dudt, P.; Knight, D.; Kiddy, K.; Xue, Z.; Vaziri, A., Dynamic compression of square honeycomb structures subjected to impulsive underwater loading, Journal of Mechanics of Materials and Structures, 10, 2, 2025-2048 (2007)
[20] Wadley, H. N.G.; Dharmasena, K. P.; Chen, Y.; Dudt, P.; Knight, D.; Charette, R.; Kiddy, K., Compressive response of multilayered pyramidal lattices during underwater shock loading, International Journal of Impact Engineering, 35, 1102-1114 (2008)
[21] Wei, Z.; Dharmasena, K. P.; Wadley, H. N.G.; Evans, A. G., Analysis and interpretation of a test for characterizing the response of metallic sandwich panels to water blast, International Journal of Impact Engineering, 34, 1602-1618 (2007)
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