Detail publikace

Modelling of service life of concrete structures under combined mechanical and environmental actions

VOŘECHOVSKÁ, D. TEPLÝ, B. ŠOMODÍKOVÁ, M. LEHKÝ, D.

Originální název

Modelling of service life of concrete structures under combined mechanical and environmental actions

Anglický název

Modelling of service life of concrete structures under combined mechanical and environmental actions

Jazyk

en

Originální abstrakt

The service life assessment is not on the safe side when neglecting the synergy of mechanical and environmental load. In order to make the service life design realistic it is necessary to take into consideration the both of them acting simultaneously. The paper deals with an advanced modelling of concrete carbonation and chloride ingress into concrete. For both, carbonation and chloride ingress, widely agreed models are extended by correction factors to reflect the coupling effects. Comparisons of numerical results to real structure behaviour are shown on realistic examples of cooling tower and reinforced concrete beams.

Anglický abstrakt

The service life assessment is not on the safe side when neglecting the synergy of mechanical and environmental load. In order to make the service life design realistic it is necessary to take into consideration the both of them acting simultaneously. The paper deals with an advanced modelling of concrete carbonation and chloride ingress into concrete. For both, carbonation and chloride ingress, widely agreed models are extended by correction factors to reflect the coupling effects. Comparisons of numerical results to real structure behaviour are shown on realistic examples of cooling tower and reinforced concrete beams.

Dokumenty

BibTex


@inproceedings{BUT117993,
  author="Dita {Vořechovská} and Břetislav {Teplý} and Martina {Sadílková Šomodíková} and David {Lehký}",
  title="Modelling of service life of concrete structures under combined mechanical and environmental actions",
  annote="The service life assessment is not on the safe side when neglecting the synergy of mechanical and environmental load. In order to make the service life design realistic it is necessary to take into consideration the both of them acting simultaneously. The paper deals with an advanced modelling of concrete carbonation and chloride ingress into concrete. For both, carbonation and chloride ingress, widely agreed models are extended by correction factors to reflect the coupling effects. Comparisons of numerical results to real structure behaviour are shown on realistic examples of cooling tower and reinforced concrete beams.",
  booktitle="Modelování v mechanice 2015",
  chapter="117993",
  howpublished="electronic, physical medium",
  year="2015",
  month="february",
  pages="1--13",
  type="conference paper"
}