Publication result detail

Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire Experiments

ŠIMONOVÁ, H.; TRČKA, T.; BEJČEK, M.; ROZSYPALOVÁ, I.; DANĚK, P.; KERŠNER, Z.

Original Title

Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire Experiments

English Title

Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire Experiments

Type

Paper in proceedings (conference paper)

Original Abstract

Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire ExperimentsThe aim of this paper is to describe the procedure of determining the mechanical fracture parameters of selected concrete specimens taken from panels after the fire experiments. The records (in form load vs displacement diagrams) of three-point bending fracture tests of these specimens with initial stress concentrators was first advanced corrected and subsequently evaluated using the Effective Crack Model and the work-of-fracture method. The increasing temperatures during the fire experiments ranging between 550 to 1000 °C led to a decrease of modulus of elasticity and fracture toughness values and to the increase of fracture energy value. The 2D laser profile scanner was used to estimate the degree of complexity of fracture surfaces; its statistical dependence on the mechanical fracture parameters proved to be moderate – the absolute value of the correlation coefficient was about 0.5 [–].

English abstract

Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire ExperimentsThe aim of this paper is to describe the procedure of determining the mechanical fracture parameters of selected concrete specimens taken from panels after the fire experiments. The records (in form load vs displacement diagrams) of three-point bending fracture tests of these specimens with initial stress concentrators was first advanced corrected and subsequently evaluated using the Effective Crack Model and the work-of-fracture method. The increasing temperatures during the fire experiments ranging between 550 to 1000 °C led to a decrease of modulus of elasticity and fracture toughness values and to the increase of fracture energy value. The 2D laser profile scanner was used to estimate the degree of complexity of fracture surfaces; its statistical dependence on the mechanical fracture parameters proved to be moderate – the absolute value of the correlation coefficient was about 0.5 [–].

Keywords

Concrete, high temperature, fracture test, 2D laser profile scanner.

Key words in English

Concrete, high temperature, fracture test, 2D laser profile scanner.

Authors

ŠIMONOVÁ, H.; TRČKA, T.; BEJČEK, M.; ROZSYPALOVÁ, I.; DANĚK, P.; KERŠNER, Z.

RIV year

2019

Released

28.02.2018

Publisher

Trans Tech Publications

Location

Switzerland

ISBN

978-3-0357-1284-1

Book

Solid State Phenomena: 24th Concrete Days

ISBN

1012-0394

Periodical

Solid State Phenomena

Volume

272

State

Swiss Confederation

Pages from

220

Pages to

225

Pages count

6

BibTex

@inproceedings{BUT146230,
  author="Hana {Šimonová} and Tomáš {Trčka} and Michal {Bejček} and Iva {Čairović} and Petr {Daněk} and Zbyněk {Keršner}",
  title="Detailed Determination of Mechanical Fracture Parameters of Concrete after Fire Experiments",
  booktitle="Solid State Phenomena: 24th Concrete Days",
  year="2018",
  journal="Solid State Phenomena",
  volume="272",
  pages="220--225",
  publisher="Trans Tech Publications",
  address="Switzerland",
  doi="10.4028/www.scientific.net/SPP.272.220",
  isbn="978-3-0357-1284-1",
  issn="1012-0394"
}