THE INFLUENCE OF PARTICLE SIZE ON THE FRACTURE TOUGHNESS OF PP-BASED PARTICLE COMPOSITE

THE INFLUENCE OF PARTICLE SIZE ON THE FRACTURE TOUGHNESS OF PP-BASED PARTICLE COMPOSITE

Peer-reviewed article not indexed in WoS or Scopus

The main focus of this paper is the numerical investigation of fracture behaviour in particulate composite (CaCO3 -PP). The composite was modelled as a three-phase continuum and numerically simulated on a microscopic scale using finite elements. The interaction of micro-crack propagation in the matrix filled by rigid particles covered by the interphase was analyzed. Stress distribution was determined for a variety of particle sizes and material properties of the interphase. The final results, in agreement with the experimental data, confirm the dependence of microcrack behavior on particle size.

The main focus of this paper is the numerical investigation of fracture behaviour in particulate composite (CaCO3 -PP). The composite was modelled as a three-phase continuum and numerically simulated on a microscopic scale using finite elements. The interaction of micro-crack propagation in the matrix filled by rigid particles covered by the interphase was analyzed. Stress distribution was determined for a variety of particle sizes and material properties of the interphase. The final results, in agreement with the experimental data, confirm the dependence of microcrack behavior on particle size.

Polymeric particulate composites, interphase, fracture mechanics

Polymeric particulate composites, interphase, fracture mechanics

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

2010

29.05.2009

Springer

0191-5665

MECHANICS OF COMPOSITE MATERIALS

45

3

United States of America

281

286

6