Publication detail

Composite materials for constructions of modern power engineering systems with higher resistance to corrosive enviroment

BODNÁROVÁ, L. HELA, R. LUKÁŠ, J.

Original Title

Composite materials for constructions of modern power engineering systems with higher resistance to corrosive enviroment

English Title

Composite materials for constructions of modern power engineering systems with higher resistance to corrosive enviroment

Type

conference paper

Language

en

Original Abstract

The paper presents knowledge found at testing of selected properties of FRP composite materials exposed to action of corrosive environment. The tested FRP profiles manufactured by means of the pultrusion process method. The profiles consisted of polyester resin used as matrix, E-glass reinforcement continuous fibers; continuous fibrous mat with random orientation of fibers was used for both inner and outer surface. Fiber reinforced polymer (FRP) composite materials offer suitable solution for structures exposed to intensive action of corrosive environment. Structure of modern power engineering systems like towers of windmill generating stations, bearing poles of photovoltaic panels or service structures of water power plants are exposed to long term action of weather (sunshine, rainfall, high humidity and action of liquid corrosives). Such conditions require advanced properties of material of structures in particular with respect to high durability and minimal necessary maintenance.

English abstract

The paper presents knowledge found at testing of selected properties of FRP composite materials exposed to action of corrosive environment. The tested FRP profiles manufactured by means of the pultrusion process method. The profiles consisted of polyester resin used as matrix, E-glass reinforcement continuous fibers; continuous fibrous mat with random orientation of fibers was used for both inner and outer surface. Fiber reinforced polymer (FRP) composite materials offer suitable solution for structures exposed to intensive action of corrosive environment. Structure of modern power engineering systems like towers of windmill generating stations, bearing poles of photovoltaic panels or service structures of water power plants are exposed to long term action of weather (sunshine, rainfall, high humidity and action of liquid corrosives). Such conditions require advanced properties of material of structures in particular with respect to high durability and minimal necessary maintenance.

Keywords

Fiber-Reinforced Polymer (FRP), Corrosive Environment, Durability, Composite Structure for Solar Thermal Power, Composite structure for Wind Power

RIV year

2011

Released

19.05.2011

Publisher

Ektoras Charalambides

Location

Cyprus

ISBN

978-9963-567-02-7

Book

Proceedings of the 3nd International Conference on Renewable Energy Sources and Energy Efficiency

Edition

1

Edition number

1

Pages from

403

Pages to

412

Pages count

10

Documents

BibTex


@inproceedings{BUT72767,
  author="Lenka {Bodnárová} and Rudolf {Hela} and Josef {Lukáš}",
  title="Composite materials for constructions of modern power engineering systems with higher resistance to corrosive enviroment",
  annote="The paper presents knowledge found at testing of selected properties of FRP composite materials exposed to action of corrosive environment. The tested FRP profiles manufactured by means of the pultrusion process method. The profiles consisted of polyester resin used as matrix, E-glass reinforcement continuous fibers; continuous fibrous mat with random orientation of fibers was used for both inner and outer surface. Fiber reinforced polymer (FRP) composite materials offer suitable solution for structures exposed to intensive action of corrosive environment. Structure of modern power engineering systems like towers of windmill generating stations, bearing poles of photovoltaic panels or service structures of water power plants are exposed to long term action of weather (sunshine, rainfall, high humidity and action of liquid corrosives). Such conditions require advanced properties of material of structures in particular with respect to high durability and minimal necessary maintenance.",
  address="Ektoras Charalambides",
  booktitle="Proceedings of the 3nd International Conference on Renewable Energy Sources and Energy Efficiency",
  chapter="72767",
  edition="1",
  howpublished="print",
  institution="Ektoras Charalambides",
  year="2011",
  month="may",
  pages="403--412",
  publisher="Ektoras Charalambides",
  type="conference paper"
}