Degradation in concrete structures due to cyclic loading and its effect on transport processes—Experiments and modeling

Robin Przondziono, Jithender J. Timothy, Frank Weise, Enno Krütt, Rolf Breitenbücher, Günther Meschke, Michael Hofmann

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

According to the objectives of the research group 1498, this paper deals with degradation effects in concrete structures that are caused by cyclic flexural loading. The goal is to determine their influence on the fluid transport processes within the material on the basis of experimental results and numerical simulations. The overall question was, to which extent the ingress of externally supplied alkalis and subsequently an alkali-silica reaction are affected by such modifications in the microstructure. Degradation in the concrete microstructure is characterized by ultrasonic wave measurements as well as by microscopic crack analysis. Furthermore, experiments on the penetration behavior of water into the investigated materials were performed. The penetration behavior into predamaged concrete microstructures was examined by the classical Karsten tube experiment, nuclear magnetic resonance method, and time domain reflectometry techniques. In order to create an appropriate model of the material's degradation on the water transport, the Darcy law was applied to describe the flow in partially saturated concrete. Material degradation is taken into account by an effective permeability that is dependent on the state of degradation. This effective permeability is obtained by the micromechanical homogenisation of the flow in an Representative Elementary Volume (REV) with distributed ellipsoidal microcracks embedded in a porous medium. The data gained in the microscopic crack analysis is used as input for the micromechanical model. Finite element simulations for unsaturated flow using the micromechanical model were compared with the experimental results showing good qualitative and quantitative agreement.

Original languageEnglish
Pages (from-to)519-527
Number of pages9
JournalStructural Concrete
Volume18
Issue number4
DOIs
StatePublished - Aug 2017
Externally publishedYes

Keywords

  • alkali ingress
  • alkali-silica reaction
  • computational model for unsaturated flow
  • cyclic loading
  • degradation
  • micromechanics model
  • transport processes

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