Details

Title

Incorporation of the Pore Size Variation to Modeling of the Elastic Behavior of Metallic Open-Cell Foams

Journal title

Archives of Metallurgy and Materials

Yearbook

2017

Volume

vol. 62

Issue

No 1

Authors

Divisions of PAS

Nauki Techniczne

Publisher

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences

Date

2017

Identifier

DOI: 10.1515/amm-2017-0039 ; e-ISSN 2300-1909

Source

Archives of Metallurgy and Materials; 2017; vol. 62; No 1

References

Drach (2016), Comparison of full field and single pore approaches to homogenization of linearly elastic materials with pores of regular and irregular shapes, Int J Solids Struct, doi.org/10.1016/j.ijsolstr.2016.06.023 ; Banhart (2005), Aluminium foams for lighter vehicles, Int J Veh Des, 37. ; Vecchio (2016), Improved models of solid foams based on soap froth Jul, Comput Mater Sci, 120. ; Zhu (2014), A novel modeling approach of aluminum foam based on MATLAB image processing, Comput Mater Sci, 82. ; Pia (2013), On the elastic deformation behavior of nanoporous metal foams, Mater, 11, 69. ; Fiedler (2012), and based finite element analysis on imperfections in open - celled metal foam : Mechanical properties, Mater, 5, 67. ; Jung (2016), Modelling of Metal Foams by a Modified Elastic Law, Mech Mater, doi.org/10.1016/j.mechmat.2016.07.007 ; Liu (2013), A relationship between the geometrical structure of a nanoporous metal foam and its modulus, Acta Mater, 61. ; An (2012), Investigation of cell shape effect on the mechanical behaviour of open - cell metal foams, Comput Mater Sci, 55. ; Wejrzanowski (2016), Design of open - porous materials for high - temperature fuel cells, Power Technol, 3, 96. ; Geißendörfer (2014), Stochastic multiscale modeling of metal foams, Probabilistic Eng Mech, 37. ; Veyhl (2011), Finite element analysis of the mechanical properties of cellular aluminium based on micro - computed tomography, Mater Sci Eng, 528. ; Edouard (2008), Pressure drop modeling on SOLID foam : State - of - the art correlation, Chem Eng J, 144. ; Wejrzanowski (2013), and Modeling structures of cellular materials for application at various length - scales, Comput Metods Mater Sci, 13, 493. ; Wieding (2014), Numerical optimization of open - - porous bone scaffold structures to match the elastic properties of human cortical bone, Mech Behav Biomed Mater, 37. ; Skibinski (2015), The influence of pore size variation on the pressure drop in open - cell foams, Mater Des, 87. ; Wejrzanowski (2013), Structure of foams modeled by Laguerre - Voronoi tessellations, Comput Mater Sci, 67. ; Zhu (2000), Effects of cell irregularity on the elastic roperties of open - cell foams, Acta Mater, 48.
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