Linear Elastic Behavior of a Low-Density Kelvin Foam With Open Cells

Warren, William E.; Kraynik, Andrew M.

doi:10.1115/1.2788983

Cited by 275 publications

(146 citation statements)

References 23 publications

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“…Most of geometrical models proposed in literature base on the assumption of equal volume of pores of different shapes [18][19][20][21][22][23]. In commercial practice foams are very frequently manufactured with narrow pore size distributions, which was confirmed by experimental observations [24].…”

Section: Introductionmentioning

confidence: 55%

Design of Mechanical Properties of Open-Cell Porous Materials Based on μCT Study of Commercial Foams

Skibiński

Ćwieka

Wejrzanowski

et al. 2015

MATEC Web of Conferences

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Abstract. In the present paper numerical design of mechanical properties of open-cell porous materials is addressed. A detailed knowledge of mechanisms and parameters determining mechanical properties (i.e. Young's Modulus, Poisson's Ratio) of foams is essential for applications such as energy absorbers or lightweight construction materials. The foam structures were designed using procedure based on Laguerre-Voronoi tessellations (LVT) with microcomputed tomography of commercial foams used as reference. Foam morphology was studied on post-processed computed tomography images and the parameters of LVT structures were compared with commercial materials. Subsequently finite element method (FEM) calculations were performed on both types of structures to validate the LVT design algorithm. The results show that the described design procedure can be successfully used for modeling mechanical properties of open-cell foam structures.

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Section: Introductionmentioning

confidence: 55%

Design of Mechanical Properties of Open-Cell Porous Materials Based on μCT Study of Commercial Foams

Skibiński

Ćwieka

Wejrzanowski

et al. 2015

MATEC Web of Conferences

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“…Consequently, given the mean voxel density (0.055 from the CT images described in section 2.1) indicated voxel-level porosity (the voxel volumes are partially filled), a voxel-density calibration procedure was developed in order to provide voxel-level properties. Thus, as previous investigations have indicated the validity of cellular solid mechanics for representing constructs with a relative density below 0.15 [Li et al, 2003;Warren and Kraynik, 1997] and our voxels have a relative density of 0.055, the Gibson and Ashby equation [Gibson, 2005] was employed. The voxel modulus E v was related to the known material modulus E m of a strut by,…”

Section: Fe Model Formulationmentioning

confidence: 99%

Local and regional mechanical characterisation of a collagen-glycosaminoglycan scaffold using high-resolution finite element analysis

Stops¹,

Harrison²,

Haugh³

et al. 2010

Journal of the Mechanical Behavior of Biomedical Materials

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“…In particular, remarkable absorbing ability of aluminium foams offers significant performance gains for crash protection of vehicle and other applications where effective utilisation of impact energy is required. Despite of the several models [1][2][3][4][5][6] based on the idealised cellular structure have been proposed, actual profile of the mechanical properties for real Al-foams is recognised to be far from that predicted theoretically. The reason of this discrepancy is a mesoscopic heterogeneity in density and other structural imperfections including cell morphology (thickness, curvature, length, etc.)…”

Section: Introductionmentioning

confidence: 99%

The Role of Foaming Agent in Structure and Mechanical Performance of Al Based Foams

Byakova

Gnyloskurenko

Sirko³

et al. 2006

Mater. Trans.

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The effect of the novel foaming agent, calcium carbonate in comparison with the conventional titanium hydride on structure and energy absorbing ability of the aluminium based foams was studied. Mechanical testing Alporas foams of Al and wrought alloy Al-5.5Zn-3Mg-0.6Cu-0.5Mn (similar to alloy 7075) doped by small amount (<0:6 mass%) of Sc and Zr was undertaken under compression with static strain rate of 1:5 Á 10 À3 s À1 . The influence of Ca additive on the cell wall structure and deformation behaviour of two kinds of the foams was recognised. Significant advantages in mechanical performance of the aluminium foams processed with CaCO 3 were found and attributed to fine cellular structure and favourable microstructure of the cell wall material.

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Linear Elastic Behavior of a Low-Density Kelvin Foam With Open Cells

Cited by 275 publications

References 23 publications

Design of Mechanical Properties of Open-Cell Porous Materials Based on μCT Study of Commercial Foams

Design of Mechanical Properties of Open-Cell Porous Materials Based on μCT Study of Commercial Foams

Local and regional mechanical characterisation of a collagen-glycosaminoglycan scaffold using high-resolution finite element analysis

The Role of Foaming Agent in Structure and Mechanical Performance of Al Based Foams

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