In this paper, we develop and implement high-resolution, computationally efficient multi-cell finite-element (FE) models of metallic foams in order to more accurately investigate the collapse behaviour of these emerging materials. The main objective is to investigate the effect of morphological imperfections at the cellular scale on the global response of the cellular material. Attention was therefore devoted to three related aspects of the work. The first is concerned with the development of FE models of metallic foams accounting for morphological imperfections at the cellular level. The second is concerned with conducting parametric studies of different model parameters and examining their effect on the instantaneous load-deformation history, peak collapse loads and energy absorption levels of the foam. The third is devoted to a thorough comparison of the numerical simulations with experimental results. Results revealed the influence of these imperfections on low-density foams, and to a much lesser extent on high-density ones.
Influence of cellular imperfections on mechanical response of metallic foams
International Journal of Crashworthiness ; 15 , 4 ; 357-367
2010-08-01
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Influence of cellular imperfections on mechanical response of metallic foams
Tema Archiv | 2010
|Mechanical properties of metallic foams
Tema Archiv | 1998
|PM technology and mechanical properties of metallic foams
British Library Online Contents | 1992
|Robust Design of Cellular Materials With Topological and Dimensional Imperfections
Online Contents | 2006
|Engineering Index Backfile | 1900
|