Detail publikačního výsledku

Particulate Composite Damage: Numerical Estimation of Micro-Crack Propagation Direction

MAJER, Z.; MARCIÁN, P.; NÁHLÍK, L.; HUTAŘ, P.; KNÉSL, Z.

Originální název

Particulate Composite Damage: Numerical Estimation of Micro-Crack Propagation Direction

Anglický název

Particulate Composite Damage: Numerical Estimation of Micro-Crack Propagation Direction

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

In recent years, particle reinforced composites are widely used due their mechanical properties as construction materials, high-performance engineering materials or protective organic coatings. The paper was mainly focused on the estimating of the interactions of the micro-crack and the particles in the particulate polymer composites. A non-linear material behavior of the matrix was obtained from the experiment and it was used to investigation by means of the finite element method - using ANSYS software. A two-dimensional numerical model was developed and a micro-crack propagation direction was calculated based on the assumption of the linear elastic fracture mechanics. The results indicated that the presence of the interphase between particle and matrix can improve the fracture toughness of the polymer particle composites through debonding process. The paper can contribute to a better understanding of the behavior and failure of the composites with the polymer matrix reinforced by the rigid particles.

Anglický abstrakt

In recent years, particle reinforced composites are widely used due their mechanical properties as construction materials, high-performance engineering materials or protective organic coatings. The paper was mainly focused on the estimating of the interactions of the micro-crack and the particles in the particulate polymer composites. A non-linear material behavior of the matrix was obtained from the experiment and it was used to investigation by means of the finite element method - using ANSYS software. A two-dimensional numerical model was developed and a micro-crack propagation direction was calculated based on the assumption of the linear elastic fracture mechanics. The results indicated that the presence of the interphase between particle and matrix can improve the fracture toughness of the polymer particle composites through debonding process. The paper can contribute to a better understanding of the behavior and failure of the composites with the polymer matrix reinforced by the rigid particles.

Klíčová slova

particle reinforced composites, interphase, fracture mechanism, finite element method, micro-crack propagation

Klíčová slova v angličtině

particle reinforced composites, interphase, fracture mechanism, finite element method, micro-crack propagation

Autoři

MAJER, Z.; MARCIÁN, P.; NÁHLÍK, L.; HUTAŘ, P.; KNÉSL, Z.

Rok RIV

2017

Vydáno

06.01.2014

Nakladatel

Trans Tech Publications

Místo

Switzerland

ISBN

978-3-03785-934-6

Kniha

MATERIALS STRUCTURE & MICROMECHANICS OF FRACTURE VII

ISSN

1013-9826

Periodikum

Key Engineering Materials (print)

Svazek

592-593

Číslo

1

Stát

Švýcarská konfederace

Strany od

445

Strany do

448

Strany počet

4

BibTex

@inproceedings{BUT100956,
  author="Zdeněk {Majer} and Petr {Marcián} and Luboš {Náhlík} and Pavel {Hutař} and Zdeněk {Knésl}",
  title="Particulate Composite Damage: Numerical Estimation of Micro-Crack Propagation Direction",
  booktitle="MATERIALS STRUCTURE & MICROMECHANICS OF FRACTURE VII",
  year="2014",
  journal="Key Engineering Materials (print)",
  volume="592-593",
  number="1",
  pages="445--448",
  publisher="Trans Tech Publications",
  address="Switzerland",
  doi="10.4028/www.scientific.net/KEM.592-593.445",
  isbn="978-3-03785-934-6",
  issn="1013-9826"
}