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Lindmark S: “Influence of testing conditions on salt scaling resistance of concrete”. High Performance Concrete. Materials and Execution of Work. Svensk Byggtjänst. Stockholm, Sweden. 2000.Search in Google Scholar
Verbeck G.J & Klieger P: “Studies of salt scaling of concrete”. Highway Research Board. Bulletin. No 150. Washington D.C. 1957.Search in Google Scholar
Fagerlund G: “A service life model for internal frost damage in concrete”. Report TVBM-1023. Lund Institute of Technology. Div. Building Materials. Lund. Sweden. 2005Search in Google Scholar
Fridh K: “Internal Frost Damage in Concrete”. Report TVBM-1023. Lund Institute of Technology. Div. Building Materials. Lund. Sweden. 2005.Search in Google Scholar
https://www.research gate.net/thevapourpressureoficeasafunctionoftemperature.Search in Google Scholar
https://www.engineering toolbox.com/water-supercooled water-vapourpressurevs.temperature.Search in Google Scholar
Hedenblad G: “Moisture Permeability of Mature Concrete, Cement Mortar and Cement Paste”. Report TVBM-1014. Lund Institute of Technology. Div. Building Materials. Lund. Sweden. 1993.Search in Google Scholar
Nilsson L-O: “Moisture problems at concrete floors”. Lund Institute of Technology. Div. Building Materials. Report TVBM-3002. Lund. Sweden. 1977. (In Swedish.).Search in Google Scholar
Hägg G: “Allmän och oorganisk kemi” (”General an Inorganic Chemistry”). Almqvist & Wiksell. Stockholm Göteborg Uppsala. 1966. pp.352-354. (In Swedish. Information is also provided in textbooks on Physical Chemistry).Search in Google Scholar
Vuorinen J: “On determination of effective degree of saturation of concrete”. Imatran Voima OY. Concrete and soil Laboratory. Internal report, Uleåborg, 1973.Search in Google Scholar
Watanabe K, Mizoguchi M. Amount of unfrozen water in frozen porous media saturated with solution. Cold Regions Science and Technology 34 (2002) 103-110Search in Google Scholar
Byfors J: Plain concrete at early ages. Research report 3:80. Swedish Cement and Concrete Research Institute. Stockholm. Sweden. 1980.Search in Google Scholar
Powers T.C.: “The air requirement of frost resistant concrete”. Highway Research Board. Proceedings No 29 (1949). 184-202.Search in Google Scholar
Dehaou A Isenmann B, Caupin F. Viscosity of deeply super-cooled water and its coupling to molecular diffusion. Proceedings, National Academy of Sciences. Research Article 112 (39) September 2015.Search in Google Scholar
Fagerlund G: “Frost destruction of concrete – A study of the validity of different mechanisms”. Nordic Concrete Research. No 58, June 2018, pp. 35-54.Search in Google Scholar