Publication detail

Estimation of Local Mechanical Properties of Highly Porous Ceramic Materials

MARCIÁN, P. MAJER, Z. DLOUHÝ, I. FLORIAN, Z.

Original Title

Estimation of Local Mechanical Properties of Highly Porous Ceramic Materials

English Title

Estimation of Local Mechanical Properties of Highly Porous Ceramic Materials

Type

journal article - other

Language

en

Original Abstract

In this contribution the ceramic foams are studied. The applications of these materials are extensive due to very advantageous combination of properties. This paper is focused on local mechanical properties of individual struts in a highly porous structure. The computational model is created using a micro-CT by a finite element method in ANSYS 12.0 software. The local equivalent stress (HMH criterion) is analyzed depending on struts rotation.

English abstract

In this contribution the ceramic foams are studied. The applications of these materials are extensive due to very advantageous combination of properties. This paper is focused on local mechanical properties of individual struts in a highly porous structure. The computational model is created using a micro-CT by a finite element method in ANSYS 12.0 software. The local equivalent stress (HMH criterion) is analyzed depending on struts rotation.

Keywords

Cellular Structures; Tensile Test; MicroCT; Image Processing; FEM

RIV year

2012

Released

10.08.2012

Location

Czech Republic

ISBN

0009-2770

Periodical

Chemické listy

Year of study

106

Number

1

State

CZ

Pages from

476

Pages to

477

Pages count

2

Documents

BibTex


@article{BUT94206,
  author="Petr {Marcián} and Zdeněk {Majer} and Ivo {Dlouhý} and Zdeněk {Florian}",
  title="Estimation of Local Mechanical Properties of Highly Porous Ceramic Materials",
  annote="In this contribution the ceramic foams are studied. The applications of these materials are extensive due to very advantageous combination of properties. This paper is focused on local mechanical properties of individual struts in a highly porous structure. The computational model is created using a micro-CT by a finite element method in ANSYS 12.0 software. The local equivalent stress (HMH criterion) is analyzed depending on struts rotation.",
  chapter="94206",
  number="1",
  volume="106",
  year="2012",
  month="august",
  pages="476--477",
  type="journal article - other"
}