Numerical Modeling of Macroscopic Behavior of Particulate Composite with Crosslinked Polymer Matrix

článek v časopise - ostatní, Jost

angličtina

Particulate composites with crosslinked polymer matrix and solid fillers are one of important classes of materials such as construction materials, high-performance engineering materials, sealants, protective organic coatings, dental materials, or solid explosives. The main focus of a present paper is an estimation of the macroscopic Youngs modulus and stress-strain behavior of a particulate composite with polymer matrix. The particulate composite with a crosslinked polymer matrix in a rubbery state filled by an alumina-based mineral filler is investigated by means of the finite element method. hyperelastic material behavior of the matrix was modeled by the Mooney-Rivlin material model. Numerical models on the base of unit cell were developed. The numerical results obtained were compared with experimental stress-strain curve and value of initial Youngs modulus. The paper can contribute to a better understanding of the behavior and failure of particulate composites with a crosslinked polymer matrix.

Particle reinforced composites, polymer matrix composites, mechanical response, finite element analysis

NÁHLÍK, L.; MÁŠA, B.; HUTAŘ, P.

2011

8. 1. 2011

TTP

Švýcarsko

1013-9826

Key Engineering Materials (print)

465

xxx

Švýcarská konfederace

129

132

4