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International Journal of Crashworthiness Volume 14, 2009 - Issue 3: Advanced Protection Systems (APROSYS): Part 2
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Original Articles

AlSi7 metallic foams – aspects of material modelling for crash analysis

Massimiliano Avalle Dipartimento di Meccanica, Politecnico di Torino, Corso Duca degli Abruzzi, Torino, Italy
,
Dirk Lehmhus Fraunhofer Institute for Manufacturing Technology and Applied Materials Research, Bremen, Germany
,
Lorenzo Peroni Dipartimento di Meccanica, Politecnico di Torino, Corso Duca degli Abruzzi, Torino, Italy
,
Hermann Pleteit Fraunhofer Institute for Manufacturing Technology and Applied Materials Research, Bremen, Germany
,
Philipp Schmiechen∗∗ IAV GmbH, Berlin, Germany
,
Giovanni Belingardi Dipartimento di Meccanica, Politecnico di Torino, Corso Duca degli Abruzzi, Torino, Italy
&
Matthias Busse Fraunhofer Institute for Manufacturing Technology and Applied Materials Research, Bremen, Germany
 show all
Pages 269-285 | Received 01 Apr 2008, Accepted 26 Aug 2008, Published online: 08 Jul 2009

References

  • 2001 . ABAQUS/Explicit Technical Manual, Vol. II Version 6.2 , Pawtucket : Hibitt, Karlsson & Sorensen Inc. .
  • Andrews , E. W. , Gioux , G. , Onck , P. and Gibson , L. J. 2001 . Size effects in ductile cellular solids. Part II: experimental results . Int. J. Mech. Sci. , 43 : 701 – 713 .
  • Avalle , M. , Belingardi , G. and Ibba , A. . Mechanical models of cellular solids, parameters identification from experimental tests . Proceedings of the 19th International Technical Conference on Enhanced Safety of Vehicles . Washington, DC
  • Banhart , J. , Ashby , M. F. and Fleck , N. A. , eds. 2001 . Cellular Metals and Metal Foaming Technology , Bremen : MIT-Verlag .
  • Banhart , J. 2001 . Manufacture, characterisation and application of cellular metals and metal foams . Prog. Mater. Sci. , 46 : 559 – 632 .
  • Baumeister , J. Verfahren zur Herstellung poröser Metallkörper . German patent DE 40 18 360. . 1990 .
  • Beals , J. T. and Thompson , M. S. 1997 . Density gradient effects on aluminium foam compression behaviour . J. Mater. Sci. , 32 : 3595 – 3600 .
  • Dannemann , K. A. and Lankford , J. 2000 . High strain rate compression of closed-cell aluminum foams . Mater. Sci. Eng. , A293 : 157 – 164 .
  • Deshpande , V. S. and Fleck , N. A. 2000 . Isotropic constitutive models for metallic foams . J. Mech. Phys. Solids , 48 : 1253 – 1283 .
  • Deshpande , V. S. and Fleck , N. A. 2000 . High strain rate compressive behavior of aluminum alloy foams . Int. J. Imp. Eng. , 24 : 277 – 298 .
  • Ehlers , W. , Müllerschön , H. and Klar , O. . On the behavior of aluminum foams under uniaxial and multiaxial loading . Proceedings of the Conference on Metal Foams and Porous Metal Structures MetFoam 1999, June 14th–16th . Edited by: Banhart , J. , Ashby , M. F. and Fleck , N. A. Bremen, , Germany : MIT-Verlag . Bremen
  • Geyer , K.-E. 2001 . “ A new front buffer for suburban railcars ” . In Cellular Metals and Metal Foaming Technology , Edited by: Banhart , J. , Ashby , M. E. and Fleck , N. A. 31 – 36 . Bremen : MIT Publishing .
  • Gibson , L. J. and Ashby , M. F. 1997 . Cellular Solids: Structure and Properties, , 2nd ed. , Cambridge, , UK : Cambridge University Press .
  • Gradinger , R. and Rammerstorfer , F. G. 1999 . On the influence of meso-inhomogeneities on the crush worthiness of metal foams . Acta Materialia , 47 : 143 – 148 .
  • Hall , I. W. , Guden , M. and Yu , C.-J. 2000 . Crushing of aluminum closed cell foams: Density and strain rate effects . Scripta Mat , 43 : 515 – 521 .
  • Hanssen , A. G. , Hopperstad , O. S. , Langseth , M. and Ilstad , H. 2002 . Validation of constitutive models applicable to aluminum foams . Int. J. Mech. Sci. , 44 : 359 – 406 .
  • Lehmhus , D. and Banhart , J. 2003 . Properties of heat-treated aluminium foams . Mater. Sci. Eng. , A A349 : 98 – 110 .
  • Martin , U. , Mosler , U. , Lehmhus , D. , Müller , A. and Heinzel , G. 2006 . “ Structure of aluminium foams and relation to mechanical properties ” . In Porous Metals and Metal Foaming Technology , Edited by: Nakajima , H. and Kanetake , W. 495 – 498 . Sendai : The Japan Institute of Metals .
  • Miller , R. E. 2000 . A continuum plasticity model for the constitutive and indentation behavior of foamed metals . Int. J. Mech. Sci. , 42 : 729 – 754 .
  • Mukai , T. , Kanahashi , H. , Miyoshi , T. , Mabuchi , M. , Nieh , T. G. and Higashi , K. 1999 . Experimental study of energy absorption in closed-cell aluminum foam under dynamic loading . Scripta Mat. , 40 : 921
  • Neugebauer , R. and Hipke , T. 2006 . “ Machine tools with metal foam ” . In Porous Metals and Metal Foaming Technology , Edited by: Nakajima , H. and Kanetake , W. 63 – 68 . Sendai : The Japan Institute of Metals .
  • Paul , A. and Ramamurty , U. 2000 . Strain rate sensitivity of closed-cell aluminum foam . Mater. Sci. Eng. , A281 : 1 – 7 .
  • Peroni , M. , Peroni , L. and Avalle , M. . High strain-rate compression test on metallic foam using a multiple pulse SHPB Apparatus . Proceedings of the 8th International Conference on Mechanical and Physical Behaviour of Materials under Dynamic Loading (DYMAT 2006) . Edited by: Cirne , J. Dormeval , R. pp. 134 609 – 616 . Journal de Physique IV
  • Rusch , K. C. 1969 . Load-compression behaviour of flexible foams . J. Appl. Polym. Sci. , 13 : 2297 – 2311 .
  • Rusch , K. C. 1970 . Energy-absorbing characteristics of foamed polymers . J. Appl. Polym. Sci. , 14 : 1133 – 1147 .
  • Rusch , K. C. 1970 . Load-compression behaviour of brittle foams . J. Appl. Polym. Sci. , 14 : 1263 – 1273 .
  • Schreyer , H. L. , Zuo , Q. H. and Maji , A. K. 1994 . Anisotropic plasticity model for foams and honeycombs . J. Eng. Mech. , 120 : 1912 – 1930 .
  • Schäffler , P. 2006 . “ A new generation of materials and their production methods ” . In Porous Metals and Metal Foaming Technology , Edited by: Nakajima , H. and Kanetake , W. 153 – 156 . Sendai : The Japan Institute of Metals .
  • Seeliger , H.-W. 2003 . “ Aluminium Foam Sandwich (AFS)—ready for market introduction ” . In Cellular Metals: Manufacture-Properties-Applications , Edited by: Banhart , J. , Fleck , N. A. and Mortensen , A. 5 – 12 . Berlin : MIT Press .
  • Zhang , J. , Lin , Z. , Wong , A. , Kikuchi , N. , Li , V. C. , Yee , A. F. and Nusholtz , G. S. 1997 . Constitutive modeling and material characterization of polymeric foams, Transactions of the ASME . J. Eng. Mater. Technol. , 119 : 284 – 291 .

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