Detail publikace

Crack Behaviour in Polymeric Composites: The Influence of Particle Shape

MAJER, Z. KNÉSL, Z. HUTAŘ, P.

Originální název

Crack Behaviour in Polymeric Composites: The Influence of Particle Shape

Anglický název

Crack Behaviour in Polymeric Composites: The Influence of Particle Shape

Jazyk

en

Originální abstrakt

In this paper polymeric particulate composites are studied (especially polypropylene (PP) matrix stuffed by rigid mineral fillers). Presently, polymeric particulate composites are frequently used in many engineering applications. The composite was modeled as a three-phase continuum; matrix, interphase and particle. The properties of the particles (size, shape) have a significant effect on the global behaviour of the composite. On the basis of fracture mechanics methodology the interaction of micro-crack propagation in the matrix filled by rigid particles covered by the interphase was analyzed. The effect of the composite structure on their mechanical properties is studied here from the theoretical point of view.

Anglický abstrakt

In this paper polymeric particulate composites are studied (especially polypropylene (PP) matrix stuffed by rigid mineral fillers). Presently, polymeric particulate composites are frequently used in many engineering applications. The composite was modeled as a three-phase continuum; matrix, interphase and particle. The properties of the particles (size, shape) have a significant effect on the global behaviour of the composite. On the basis of fracture mechanics methodology the interaction of micro-crack propagation in the matrix filled by rigid particles covered by the interphase was analyzed. The effect of the composite structure on their mechanical properties is studied here from the theoretical point of view.

Dokumenty

BibTex


@article{BUT72794,
  author="Zdeněk {Majer} and Zdeněk {Knésl} and Pavel {Hutař}",
  title="Crack Behaviour in Polymeric Composites: The Influence of Particle Shape",
  annote="In this paper polymeric particulate composites are studied (especially polypropylene (PP) matrix stuffed by rigid mineral fillers). Presently, polymeric particulate composites are frequently used in many engineering applications. The composite was modeled as a three-phase continuum; matrix, interphase and particle. The properties of the particles (size, shape) have a significant effect on the global behaviour of the composite. On the basis of fracture mechanics methodology the interaction of micro-crack propagation in the matrix filled by rigid particles covered by the interphase was analyzed. The effect of the composite structure on their mechanical properties is studied here from the theoretical point of view.",
  address="TRANS TECH PUBLICATIONS LTD",
  chapter="72794",
  institution="TRANS TECH PUBLICATIONS LTD",
  journal="Key Engineering Materials",
  number="1",
  volume="465",
  year="2011",
  month="january",
  pages="564--567",
  publisher="TRANS TECH PUBLICATIONS LTD",
  type="journal article - other"
}