Phase Transitions of Adsorbates: IV, Mechanism of Frost Action in Hardened Cement Paste

Autor:	G. G. Litvan
Rok vydání:	1972
Předmět:	cement Cement Phase transition porosity gel (froid) Materials science transformation de phase béton (matériau) Vapor pressure Degree of saturation ciment porosité Adsorption Materials Chemistry Ceramics and Composites Béton phase transformations Relative humidity frost Air entrainment concrete (materials) Composite material Water content Concrete
Zdroj:	Journal of the American Ceramic Society. 55:38-42
ISSN:	1551-2916 0002-7820
DOI:	10.1111/j.1151-2916.1972.tb13393.x
Popis:	The dimensional changes and the thermograms of cement specimens were determined during temperature cycles (+5 degrees to -60 degrees C, 0.33 degrees C/min). In each case, freezing processes at -8 degrees and -40 degrees C and melting processes at -11 degrees and 0 degrees C were observed. The results could be explained by a theory previously developed for the porous-glass-water system. At the higher temperature, freezing occurs on the outer surface of the specimen; at the lower temperature, it occurs in the pores after redistribution of the water. Because water does not freeze in pores filled on adsorption, it migrates out of these pores when the relative humidity (expressed in terms of the vapor pressure of undercooled water), unavoidably decreases on cooling. Expansion is deleterious when the water content of the paste is significantly greater than the equilibrium value at the prevailing relative humidity. The effects of the water/cement ratio, degree of saturation, air entrainment, sample dimensions, and cooling rate were consistent with the theory.
Databáze:	OpenAIRE
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