Publication detail

COMPUTATIONAL SIMULATION OF THE INFLUENCE OF MATERIAL POROSITY ON TEST SPECIMEN BEHAVIOUR

JANÍČEK, P., FUIS, V., PEŠLOVÁ, F.

Original Title

COMPUTATIONAL SIMULATION OF THE INFLUENCE OF MATERIAL POROSITY ON TEST SPECIMEN BEHAVIOUR

English Title

COMPUTATIONAL SIMULATION OF THE INFLUENCE OF MATERIAL POROSITY ON TEST SPECIMEN BEHAVIOUR

Type

conference paper

Language

en

Original Abstract

EUCOR material is a natural ceramics produced by fusion of natural basalt [2]. A measuring method for investigation of its elastic material characteristics was developed, enabling to evaluate elasticity moduli in tension and compression. Basis lies in measuring strain values at a beam under four-point-flexion using electric resistance strain gauges. The results showed some discrepancies the causes of which have to be analysed. Among this causes, structural non-homogeneity and material porosity can be important. The paper presents results of computational modelling of the influence of test specimen material porosity on its strain-stress states. These results are valid generally for any type of material with porosity.

English abstract

EUCOR material is a natural ceramics produced by fusion of natural basalt [2]. A measuring method for investigation of its elastic material characteristics was developed, enabling to evaluate elasticity moduli in tension and compression. Basis lies in measuring strain values at a beam under four-point-flexion using electric resistance strain gauges. The results showed some discrepancies the causes of which have to be analysed. Among this causes, structural non-homogeneity and material porosity can be important. The paper presents results of computational modelling of the influence of test specimen material porosity on its strain-stress states. These results are valid generally for any type of material with porosity.

RIV year

2001

Released

14.05.2001

Publisher

Institute of Thermomechanics ASCR

Location

Praha, ČR

ISBN

80-85918-64-1

Book

Inženýrská mechanika 2001

Pages from

120

Pages to

121

Pages count

2

Documents

BibTex


@inproceedings{BUT2904,
  author="Přemysl {Janíček} and Vladimír {Fuis} and Františka {Pešlová}",
  title="COMPUTATIONAL SIMULATION OF THE INFLUENCE OF MATERIAL POROSITY ON TEST SPECIMEN BEHAVIOUR",
  annote="EUCOR material is a natural ceramics produced by fusion of natural basalt [2]. A measuring method for investigation of its elastic material characteristics was developed, enabling to evaluate elasticity moduli in tension and compression. Basis lies in measuring strain values at a beam under four-point-flexion using electric resistance strain gauges. The results showed some discrepancies the causes of which have to be analysed. Among this causes, structural non-homogeneity and material porosity can be important. The paper presents results of computational modelling of the influence of test specimen material porosity on its strain-stress states. These results are valid generally for any type of material with porosity.",
  address="Institute of Thermomechanics ASCR",
  booktitle="Inženýrská mechanika 2001",
  chapter="2904",
  institution="Institute of Thermomechanics ASCR",
  year="2001",
  month="may",
  pages="120",
  publisher="Institute of Thermomechanics ASCR",
  type="conference paper"
}