Effect of Presence of Salt on Hygric Performance of Ceramic Bricks
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Aligizaki, K.K.: Pore Structure of Cement-Based Materials. Taylor & Francis, London and New York (2006)
Brito, V., Diaz Gonçalves, T.: Drying kinetics of porous stones in the presence of NaCl and NaNO $$_3$$ 3 : experimental assessment of the factors affecting liquid and vapour transport. transp. Porous Med. 100, 193–210 (2013)
Derluyn, H., Moonen, P., Carmeliet, J.: deformation and damage due to drying-induced salt crystallization in porous limestone. J. Mech. Phys. Solids 63, 242–255 (2014)
Dondi, M., Principi, P., Raimondo, M., Zanarini, C.: Water vapour permeability of clay bricks. Constr. Build. Mater. 17, 253–258 (2003)
EN ISO 12571:2000: hygrothermal performance of building materials and products—determination of hygroscopic sorption properties (2000)
EN ISO 12572:2001: hygrothermal performance of building materials and products—determination of water vapour transmission properties (2001)
Furmaniak, S., Terzyk, A.P., Golembiewski, R., Gauden, P.A., Czepirski, L.: Searching the most optimal model of water sorption on foodstuffs in the whole range of relative humidity. Food Res. Int. 42, 1203–1214 (2009)
Furmaniak, S.: The alternative model of water vapour sorption in porous building materials. Transp. Porous Med. 95, 21–23 (2012)
Hansen, K.K.: Sorption isotherms—catalogue. Technical report 162/86, TU Denmark, Lyngby (1986)
Hall, C., Hoff, W.D.: Water Transport in Brick, Stone and Concrete. CRC Press, Taylor & Francis, London (2002)
Hens, H.: Applied building physics, boundary conditions, building conditions and material properties. Wilhelm Ernst & Sohn, Berlin (2011)
James, C., Simonson, C.J., Talukdar, P., Roels, S.: Numerical and experimental data set for benchmarking hygroscopic buffering models. Int. J. Heat Mass Transf. 53, 3638–3654 (2010)
Kiessl, K.: Bauphysikalische Einflüsse bei der Krustenbildung am Gestein alter Bauwerke. Bauphysik 11(1), 44–49 (1989)
Koniorczyk, M., Gawin, D.: Numerical modeling of salt transport and precipitation in non-isothermal partially saturated porous media considering kinetics of salt phase changes. Transp. Porous Med. 87, 57–76 (2011)
Koronthalyova, O.: Moisture storage capacity and microstructure of ceramic brick and autoclaved aerated concrete. Constr. Build. Mater. 25(2), 879–885 (2011)
Krus, M.: Moisture Transport and Storage Coefficients of Porous Building Materials, Ph.D. thesis. Universität Stutgart (1995)
Kumar, A., Ketel, S., Kirk, V., Tandre, O., Narayanan, N., Gaurav, S.: Water vapour sorption in cementitious materials—measurement, modeling and interpretation. Transp. Porous Med. 103, 69–98 (2014)
Kumaran, M. K.: Heat, air and moisture transfer in insulated envelope parts: final report, vol. 3, Task: 3 Material properties, International EnergyAgency Annex 24, Laboratorium Bouwfysica, K. U. Leuven (1996)
Kunzel, H.M.: Simultaneous Heat and Moisture Transport in Building Components. IRB Verlag, Stuttgart (1995)
Lubelli, B., Van Hees, R.P.J., Brocken, R.P.J.: Experimental research on hygroscopic behaviour of porous specimens contaminated with salt. Constr. Build. Mater. 18, 339–348 (2004)
Nielsen, C. B.: Salts in Porous Building Materials, Technical Report 243/91, Technical University of Denmark (1991)
Pavlík, Z., Žumár, J., Medved, I., Černý, R.: Water vapour adsorption in porous building materials: experimental measurement and theoretical analysis. Transp. Porous Med. 91, 939–954 (2012)
Roels, S., Carmeliet, J., Hens, H., Adan, O., Brocken, H., Cerny, R., Pavlik, Z., Hall, C., Kumaran, K., Pel, L., Plagge, R.: Interlaboratory comparison of hygric properties of porous building materials. J. Build. Phys. 27, 307–325 (2004)
Table of conductivity vs. concentration for common solutions. http://myweb.wit.edu/sandinic/Research/conductivity%20v%20concentration.pdf
Tang, I.N., Munkelwitz, H.R.: Composition and temperature dependence of the deliquescence properties of hygroscopic aerosols. Atmos. Environ. 27A, 467–473 (1993)