Influence of the Ceramic Foam Structure Irregularity on the Tensile Response

conference paper

English

To better understand response or fracture conditions of the ceramic foam materials to the mechanical loading, a finite element (FE) analysis of these structures has to be employed. The cellular structure of foams can be modelled either using a detailed realistic FE model based on the computer tomography scans or by using of simplified, beam element based, models. Nevertheless a main drawback of the realistic foam modelling consists in its high demandingness on computational resources. Therefore, simplified models are welcome substitutions (at least for analysis of the global mechanical foam response). The regular foam structure, based e.g. on Kelvin cells, is simple from the modelling point of view, but it doesn´t exactly capture the fully random character of the real foam structures and corresponding response to the external load. Definition of the random beam foam structure (respecting the real cell shapes and their distribution within volume), can thus improve this deficiency. The main aim of this work is thus to compare these different modelling approaches and quantify the influence of the foam irregularity on the response of ceramic foams to external (tensile) loading for various model sizes.

Ceramic foam, irregular foam structure, Voronoi tessellation, FEM

ŠEVEČEK, O.; NAVRÁTIL, P.; PAPŠÍK, R.; SKALKA, P.; KOTOUL, M.

5. 1. 2017

Trans Tech Publications

Švýcarsko

978-3-03835-626-4

Materials Structure and Micromechanics of Fracture VIII

1662-9779

Solid State Phenomena

258

1

Swiss Confederation

161

164

4