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Journal of Materials Engineering and Performance

Erschienen in:

01.02.2012

Shock-Wave Attenuation and Energy-Dissipation Potential of Granular Materials

verfasst von: Mica Grujicic, B. Pandurangan, W. C. Bell, S. Bagheri

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 2/2012

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Abstract

The propagation of uniaxial-stress planar shocks in granular materials is analyzed using a conventional shock-physics approach. Within this approach, both compression shocks and decompression waves are treated as (stress, specific volume, particle velocity, mass-based internal energy density, temperature, and mass-based entropy density) propagating discontinuities. In addition, the granular material is considered as being a continuum (i.e., no mesoscale features like grains, voids, and their agglomerates are considered). However, while the granular material is treated as a (smeared-out) continuum, it is recognized that it contains a solid constituent (parent matter), and that the structurodynamic properties (i.e., Equations of State (EOS) and Hugoniot relations) of the granular material are related to its parent matter. Three characteristic shock loading regimes of granular material are considered and, in each case, an analysis is carried out to elucidate shock attenuation and energy dissipation processes. In addition, an attempt is made to identify a metric (a combination of the material parameters) which quantifies the intrinsic ability of a granular material to attenuate a shock and dissipate the energy carried by the shock. Toward that end, the response of a typical granular material to a flat-topped compressive stress pulse is analyzed in each of the three shock loading regimes.

Vorheriger Artikel Experimental and Finite Element Investigation of Roll Drawing Process

Nächster Artikel A Numerical Method for Inverse Thermal Analysis of Steady-State Energy Deposition in Plate Structures

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L. Davison, Fundamentals of Shock Wave Propagation in Solids, Springer, Berlin, Heidelberg, Germany, 2008

S.P. Medvedev, S.M. Frolov, and B.E. Gel’fand, Attenuation of Shock-Waves by Screens of Granular Materials, J. Eng. Phys. Thermophys., 1990, 58(6), p 714–718

J. Bakken, T. Slungaard, T. Engebretsen, and S.O. Christensen, Attenuation of Shock Waves by Granular Filters, Shock Waves, 2003, 13(1), p 33–40CrossRef

A.B. Sawaoka, Dynamic Consolidation of Non-Oxide Ceramic Powders, Physica B, 1986, 139–140(3), p 809–812

A.H. Shen, T.J. Arhens, and J.D. O’Keefe, Shock Wave-Induced Vaporization of Porous Solids, J. Appl. Phys., 2003, 93(9), p 5167–5174CrossRef

M.V. Muniz, H. Sobral, and R.N. Gonzalez, Shock and Thermal Wave Study of Laser-induced Plasmas in Air by the Probe Beam Deflection Techniques, Meas. Sci. Technol., 2003, 14, p 614–618CrossRef

J.R. Rempel, D.N. Schmidt, J.O. Erkman, and W.M. Isbell, Shock Attenuation in Solids and Distended Materials, Stanford Research Institute, Report No. AD0628796, 1965.

R.F. Trunin, K.K. Krupnikov, G.V. Simakov, and A.I. Funtikov, Shock-Wave Compression of Porous Metals, High-Pressure Shock Compression of Solids VII—Shock Waves and Extreme States of Matter, Springer, New York, p 177–195, 2004.

R.R. Boade, Principal Hugoniot, Second-Shock Hugoniot, and Release Behavior of Pressed Copper Powder, J. Appl. Phys., 1970, 41(11), p 4542–4551CrossRef

10.

M.F. Ashby, Material Selection in Mechanical Design, 3rd ed., Butterworth-Heinemann, 2005.

11.

M. Grujicic, V. Sellappan, T. He, N. Seyr, A. Obieglo, M. Erdmann, and J. Holzleitner, Total Life-Cycle Based Materials Selection for Polymer Metal Hybrid Body-In-White Automotive Components, J. Mater. Eng. Perform., 2009, 18, p 111–128CrossRef

12.

M. Grujicic, G. Arakere, V. Sellappan, A. Vallejo, and M. Ozen, Structural-response Analysis, Fatigue-life Prediction and Material Selection for 1 MW Horizontal-axis Wind-Turbine Blades, J. Mater. Eng. Perform., 2010, 19(6), p 780–801CrossRef

13.

M. Grujicic, G. Arakere, X. Xie, M. LaBerge, A. Grujicic, D.W. Wagner, and A. Vallejo, Design optimization and Material Selection for a Femoral-Fracture Fixation-Plate Implant, Mater. Des., 2010, 31, p 3463–3473CrossRef

14.

M. Grujicic, X. Xie, G. Arakere, A. Grujicic, D.W. Wagner, and A. Vallejo, Design-Optimization and Material Selection for a Proximal Radius Fracture-fixation Implant, J. Mater. Eng. Perform., 2010, 19(8), p 1090–1103CrossRef

15.

R.G. McQueen, S.P. Marsh, J.W. Taylor, J.N. Fritz, and W.J. Carter, The Equation of State of Solids from Shock Wave Studies, High Velocity Impact Phenomena, R. Kinslow, Ed., New York, Academic Press, 1970, p 293–417

Titel: Shock-Wave Attenuation and Energy-Dissipation Potential of Granular Materials
verfasst von: Mica Grujicic
B. Pandurangan
W. C. Bell
S. Bagheri
Publikationsdatum: 01.02.2012
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 2/2012
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-011-9954-8

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