Publication detail

Thermomechanical Properties of Popypropylene - based Lightweight Composites Medeled on The Mesoscale

DOSTÁLOVÁ, D. KAFKA, V. VOKOUN, D. HELLER, L. MATĚJKA, L KADEŘÁVEK, L. PĚNČÍK, J.

Original Title

Thermomechanical Properties of Popypropylene - based Lightweight Composites Medeled on The Mesoscale

English Title

Thermomechanical Properties of Popypropylene - based Lightweight Composites Medeled on The Mesoscale

Type

journal article in Web of Science

Language

en

Original Abstract

Waste Based Partical Polymer Composite (WPPCs) made from polypropylene and glassy inclusion developed at Brno University of Technology for civil engineering application bring several advantages. First of all, WPPCs are theramlly insulating and humidity resistant low - cost material with high bearing capacity. We examined the thermomechanical properties of the composite, including creep properties of WPPC and Polypropylene matrix. In the study we use Kafkas mesomechanical model to simulate creep strain changes in time for various temperatures. we demonstrate the applicability of Kafkas model for simulating properties of the studied material

English abstract

Waste Based Partical Polymer Composite (WPPCs) made from polypropylene and glassy inclusion developed at Brno University of Technology for civil engineering application bring several advantages. First of all, WPPCs are theramlly insulating and humidity resistant low - cost material with high bearing capacity. We examined the thermomechanical properties of the composite, including creep properties of WPPC and Polypropylene matrix. In the study we use Kafkas mesomechanical model to simulate creep strain changes in time for various temperatures. we demonstrate the applicability of Kafkas model for simulating properties of the studied material

Keywords

Composite, Thermal insulation, Creep tests, Mesomechanical model, Elastic modulus

Released

07.05.2017

Publisher

US Springer

Location

US, New York

ISBN

1059-9495

Periodical

Journal of Materials Engineering and Performance

Year of study

26

Number

11

State

US

Pages from

5166

Pages to

5172

Pages count

11

URL

Documents

BibTex


@article{BUT143483,
  author="Darina {Dostálová} and Libor {Matějka} and Jan {Pěnčík}",
  title="Thermomechanical Properties of Popypropylene - based Lightweight Composites Medeled on The Mesoscale",
  annote="Waste Based Partical Polymer Composite (WPPCs) made from polypropylene and glassy inclusion developed at Brno University of Technology for civil engineering application bring several advantages. First of all, WPPCs are theramlly insulating and humidity resistant low - cost material with high bearing capacity. We examined the thermomechanical properties of the composite, including creep properties of WPPC and Polypropylene matrix. In the study we use Kafkas mesomechanical model to simulate creep strain changes in time for various temperatures. we demonstrate the applicability of Kafkas model for simulating properties of the studied material",
  address="US Springer",
  chapter="143483",
  doi="10.1007/s11665-017-2967-1",
  howpublished="print",
  institution="US Springer",
  number="11",
  volume="26",
  year="2017",
  month="may",
  pages="5166--5172",
  publisher="US Springer",
  type="journal article in Web of Science"
}