论文信息 - Axial crushing of metal foam-filled square columns: Foam density distribution and impactor inclination effects

Axial crushing of metal foam-filled square columns: Foam density distribution and impactor inclination effects

In this paper, the effects of foam density distribution and initial impactor inclination angle on crushing behaviour of metal foam-filled thin-walled square columns have been investigated. The simplified version of an existing pressure dependent self-similar constitutive model with tensile failure for metal foam has been implemented in ABAQUS/Explicit code. Random distribution of cubic regions with normal distribution of density has been created. The analyses have been accomplished for three distinct foam densities, two extreme random distributions (fine and coarse), and five different impactor inclination angles. A local effect on folding patterns of columns filled with low-density foam has been identified. Furthermore, unstable bending mode of collapse appears in the case of slightly inclined impactor and medium and high-density foams. In addition, for high-density foam-filled specimens global buckling can initiate by just letting the density of foam vary inside the sample.

[1] W. Abramowicz,et al. Axial crushing of foam-filled columns , 1988 .

[2] Michael F. Ashby,et al. Failure surfaces for cellular materials under multiaxial loads—I.Modelling , 1989 .

[3] Tomasz Wierzbicki,et al. Crash behavior of box columns filled with aluminum honeycomb or foam , 1998 .

[4] T. Wierzbicki,et al. Experimental and numerical studies of foam-filled sections , 2000 .

[5] Ronald E. Miller. A continuum plasticity model for the constitutive and indentation behaviour of foamed metals , 2000 .

[6] Abdulmalik A. Alghamdi,et al. Collapsible impact energy absorbers: an overview , 2001 .

[7] R. J. Green,et al. A plasticity theory for porous solids , 1972 .

[8] S. Park,et al. Collapse behavior of square thin-walled columns subjected to oblique loads , 1999 .

[9] N. Aravas. On the numerical integration of a class of pressure-dependent plasticity models , 1987 .

[10] N. Fleck,et al. Isotropic constitutive models for metallic foams , 2000 .

[11] O. Hopperstad,et al. Validation of constitutive models applicable to aluminium foams , 2002 .

[12] O. Hopperstad,et al. Static and dynamic crushing of square aluminium extrusions with aluminium foam filler , 2000 .

[13] F. Rammerstorfer,et al. Experimental studies on the quasi-static axial crushing of steel columns filled with aluminium foam , 2000 .