Joint studies of water phase transitions in Na-bentonite clay by calorimetric and dielectric methods : научное издание


Тип публикации: статья из журнала

Год издания: 2018

Идентификатор DOI: 10.1016/j.coldregions.2018.04.010

Аннотация: The present study consisted of an experimental investigation of phase transitions of soil water contained in moist Na-bentonite clay, using the differential scanning calorimetry (DSC) method, within the temperature range from −40 to 20 °C. Based on the results of DSC analysis, the following components of soil water were found in thПоказать полностьюe frozen bentonite: non-freezing water, unfrozen water and ice. The proposed method of processing the obtained experimental calorimetric data allowed us to determine the temperature dependencies of the content of particular soil water components. Latent heat of fusion was found in two cases, namely: where the ice was transformed into bound or unbound unfrozen soil water. The results of the investigation into phase transitions, obtained via calorimetric measurements, were used to substantiate the method for studying the phase transitions of soil water by dielectric measurements. With this in mind, complex relative permittivity testing was conducted on the same moist Na-bentonite clay, in the temperature range from −30 to 0 °C and a gravimetric moisture range from the dry soil to 1 g/g. Based on the results of these dielectric tests and a refractive dielectric mixture model (RDMM), the following components of water were identified in the frozen soil: tightly bound water, loosely bound water, unbound water and ice. The dependences of the content of these components of soil water on the temperature were calculated. It was shown that the increase in the mass of unfrozen loosely bound water, as a result of a decrease in the ice mass, determined with dielectric measurements, is quantitatively consistent with the dependence calculated using calorimetric testing. This proves that the changes of the mass of the loosely bound water, determined by dielectric measurements, is a result of the phase transition and the corresponding temperature dependence can be used to determine the characteristics of these phase transitions.

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Журнал: Cold Regions Science and Technology

Выпуск журнала: Т. 153

Номера страниц: 172-180

ISSN журнала: 0165232X

Издатель: Elsevier Science Publishing Company, Inc.


  • Mironov V.L. (Kirensky Institute of Physics,Federal Research Center KSC SB RAS)
  • Karavayskiy A.Y. (Kirensky Institute of Physics,Federal Research Center KSC SB RAS)
  • Lukin Y.I. (Kirensky Institute of Physics,Federal Research Center KSC SB RAS)
  • Pogoreltsev E.I. (Institute of Engineering Physics and Radioelectronics Siberian State University)

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