Materials (Sep 2021)

A Three-Phase Transport Model for High-Temperature Concrete Simulations Validated with X-ray CT Data

  • Christoph Pohl,
  • Vít Šmilauer,
  • Jörg F. Unger

DOI
https://doi.org/10.3390/ma14175047
Journal volume & issue
Vol. 14, no. 17
p. 5047

Abstract

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Concrete exposure to high temperatures induces thermo-hygral phenomena, causing water phase changes, buildup of pore pressure and vulnerability to spalling. In order to predict these phenomena under various conditions, a three-phase transport model is proposed. The model is validated on X-ray CT data up to 320 °C, showing good agreement of the temperature profiles and moisture changes. A dehydration description, traditionally derived from thermogravimetric analysis, was replaced by a formulation based on data from neutron radiography. In addition, treating porosity and dehydration evolution as independent processes, previous approaches do not fulfil the solid mass balance. As a consequence, a new formulation is proposed that introduces the porosity as an independent variable, ensuring the latter condition.

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