Publication detail

On design and experimental verification of actual behaviour of selected all-FRP structural components for civil engineering

MELCHER, J. KARMAZÍNOVÁ, M. FILIP, M.

Original Title

On design and experimental verification of actual behaviour of selected all-FRP structural components for civil engineering

English Title

On design and experimental verification of actual behaviour of selected all-FRP structural components for civil engineering

Type

conference paper

Language

en

Original Abstract

Based on the research and design activities conducted at Brno University of Technology, Czech Republic, this paper deals with basic information on problems of design and actual behaviour of the selected all-FRP structural components for civil engineering. In particular, the recorded experimental studies are focused mainly on the design assessment of fibre-glass grid flooring components. The design criteria for structural FRP parts of load bearing systems should verify especially the final displacements. Thus, in general, the ultimate limit state of structural system is not only the problem of ultimate strength but namely the problem of accordant final displacements. The analysis of test results gives data for the verification of numerical modelling and for the checking of conventional design criteria. Considering the specific character of structural all-FRP systems, for the structural design the recognition of the deflection advancement can be decisive.

English abstract

Based on the research and design activities conducted at Brno University of Technology, Czech Republic, this paper deals with basic information on problems of design and actual behaviour of the selected all-FRP structural components for civil engineering. In particular, the recorded experimental studies are focused mainly on the design assessment of fibre-glass grid flooring components. The design criteria for structural FRP parts of load bearing systems should verify especially the final displacements. Thus, in general, the ultimate limit state of structural system is not only the problem of ultimate strength but namely the problem of accordant final displacements. The analysis of test results gives data for the verification of numerical modelling and for the checking of conventional design criteria. Considering the specific character of structural all-FRP systems, for the structural design the recognition of the deflection advancement can be decisive.

Keywords

design, experimental verification, actual behaviour, all-FRP structural components

RIV year

2007

Released

01.01.2007

Publisher

The University of Hong Kong / Int. Institute for FRP in Construction

Location

Hong Kong

ISBN

978-962-8014-14-9

Book

Proceedings of the Asia-Pacific Conference on FRP in Structures - APFIS 2007

Pages from

453

Pages to

458

Pages count

6

Documents

BibTex


@inproceedings{BUT25443,
  author="Jindřich {Melcher} and Marcela {Karmazínová} and M. {Filip}",
  title="On design and experimental verification of actual behaviour of selected all-FRP structural components for civil engineering",
  annote="Based on the research and design activities conducted at Brno University of Technology, Czech Republic, this paper deals with basic information on problems of design and actual behaviour of the selected all-FRP structural components for civil engineering. In particular, the recorded experimental studies are focused mainly on the design assessment of fibre-glass grid flooring components. The design criteria for structural FRP parts of load bearing systems should verify especially the final displacements. Thus, in general, the ultimate limit state of structural system is not only the problem of ultimate strength but namely the problem of accordant final displacements. The analysis of test results gives data for the verification of numerical modelling and for the checking of conventional design criteria. Considering the specific character of structural all-FRP systems, for the structural design the recognition of the deflection advancement can be decisive.",
  address="The University of Hong Kong / Int. Institute for FRP in Construction",
  booktitle="Proceedings of the Asia-Pacific Conference on FRP in Structures - APFIS 2007",
  chapter="25443",
  institution="The University of Hong Kong / Int. Institute for FRP in Construction",
  year="2007",
  month="january",
  pages="453--458",
  publisher="The University of Hong Kong / Int. Institute for FRP in Construction",
  type="conference paper"
}