Detail publikace

Micro-Crack Behaviour in Polymer Particulate Composite

MAJER, Z.

Originální název

Micro-Crack Behaviour in Polymer Particulate Composite

Anglický název

Micro-Crack Behaviour in Polymer Particulate Composite

Jazyk

en

Originální abstrakt

The numerical investigation of fracture behavior in polymeric particulate composite with rigid particles is discussed in the paper. Polymeric particulate composite as a three-phase continuum was modeled. Particles, matrix and interphase were considered. The micro-crack tip response using finite element method was estimated. Stress distribution was determined for a variety of matrix and interphase material properties. The matrix material properties were estimated from the experiment and as non-linear were considered.

Anglický abstrakt

The numerical investigation of fracture behavior in polymeric particulate composite with rigid particles is discussed in the paper. Polymeric particulate composite as a three-phase continuum was modeled. Particles, matrix and interphase were considered. The micro-crack tip response using finite element method was estimated. Stress distribution was determined for a variety of matrix and interphase material properties. The matrix material properties were estimated from the experiment and as non-linear were considered.

Dokumenty

BibTex


@inproceedings{BUT92584,
  author="Zdeněk {Majer}",
  title="Micro-Crack Behaviour in Polymer Particulate Composite",
  annote="The numerical investigation of fracture behavior in polymeric particulate composite with rigid particles is discussed in the paper. Polymeric particulate composite as a three-phase continuum was modeled. Particles, matrix and interphase were considered. The micro-crack tip response using finite element method was estimated. Stress distribution was determined for a variety of matrix and interphase material properties. The matrix material properties were estimated from the experiment and as non-linear were considered.",
  address="EDIS",
  booktitle="17th International of PhD. students seminar",
  chapter="92584",
  howpublished="print",
  institution="EDIS",
  year="2012",
  month="january",
  pages="41--45",
  publisher="EDIS",
  type="conference paper"
}