The hygric performance of ceramic brick exposed to borderline dynamic conditions

• Autorzy: Koronthályová O. , Mihálka P.

Warianty tytułu

PL

Oddziaływanie wilgoci na cegłę ceramiczną w skrajnych warunkach dynamicznych

• Języki publikacji: EN

Abstrakty

EN

The actual moisture content of a ceramic brick under changing borderline conditions is experimentally determined. The results of an experiment are compared with the results of numerical simulation. A simplified model for evaluating the actual moisture content of a hysteretic building material is suggested.

PL

Określono eksperymentalnie rzeczywistą zawartość wilgoci w cegle ceramicznej w zmiennych, skrajnych warunkach. Wyniki eksperymentu porównano z rezultatami symulacji numerycznej. Zaproponowano uproszczony model oceny rzeczywistej zawartości wilgoci w histerezowym materiale budowlanym.

Słowa kluczowe

EN

hygric performance; sorption hysteresis; simplified model; ceramic brick

PL

oddziaływanie wilgoci; histereza sorpcji; model uproszczony; cegła ceramiczna

• Wydawca: Wydawnictwo Politechniki Krakowskiej im. Tadeusza Kościuszki
• Czasopismo: Czasopismo Techniczne. Budownictwo
• Rocznik: 2012
• Tom: R. 109, z. 2-B
• Strony: 239--246
• Opis fizyczny: Bibliogr. 9 poz., wz., tab., wykr.

Twórcy

autor

Koronthályová O.

• Institute of Construction and Architecture, Slovak Academy of Science, Bratislava

autor

Mihálka P.

• Institute of Construction and Architecture, Slovak Academy of Science, Bratislava

Bibliografia

• [1] Koronthalyova O., Water vapour sorption of building materials – modelling of scanning curves, Proceedings of the 9th Nordic Symposium on Building Physics, NSB 2011, Faculty of Civil Engineering, Tampere University of Technology, Tampere, Finland 2011, 655-662.
• [2] EN ISO 12571:2000 Hygrothermal performance of building materials and products – Determination of hygroscopic sorption properties.
• [3] EN ISO 12572:2001 Hygrothermal performance of building materials and products – Determination of water vapour transmission properties.
• [4] Jaynes D.B., Comparison of soil-water hysteresis models, Journal of Hydrology, Vol. 75, 1984/1985, 287-299.
• [5] Koronthalyova O., Matiasovsky P., Factors Influencing Correctness of the Simulation Model of the Building Structures Hygrothermal Behaviour, New Requirements for Materials and Structures, Czech Technical University, Prague 1998, 160-165.
• [6] Mihalka P. et al., Simulation of hysteretic behavior at dynamic moisture response, Thermophysics 2008, Bratislava, Vydavatelstvo STU 2008, 110-118.
• [7] Pedersen C.R., Combined Heat and Moisture Transfer in Building Constructions, PhD Thesis, Thermal Insulation Laboratory, Technical University of Denmark 1990.
• [8] Koronthalyova O., Moisture storage capacity and microstructure of ceramic brick and autoclaved aerated concrete, Construction and Building Materials, 2011, Vol. 25, Iss. 2, 879-885.
• [9] Koronthalyova O., Water vapour sorption hysteresis of autoclaved aerated concrete and burnt clay bric, Proceedings of the 1st Central European Symposium on Building Physics, Technical University of Lodz, 2010, 47-53.

Uwagi

EN

This research was supported by the Slovak Grant Agency VEGA (Grant No. 2/0159/10)