Technical Carbon for Modification of the Structure and Properties of the Gypsum Binder

Yakovlev, Grigory; Pervushin, Grigory; Gordina, Anastasiya; Shaybadulina, A V; Saidova, Zarina; Protodyakonova, T L; BURYANOV, A.F.; Nikitina, Svetlana V.

doi:10.22213/2410-9304-2019-1-138-143

Cited by 1 publication

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“…Physicochemical processes that lead to the creation of electrically conductive composites are not clearly explained. Most of the works are solely descriptive and present physicochemical characteristics of material after introduction of dispersed conductive materials such as graphite [6], carbon soot [7][8], metal oxides [9], carbon nanotubes [10]. However, the mechanisms of structural modification of composites and increase in their electrical conductivity, achieved by changing the dispersion degree of conductive additives, are not investigated.…”

Section: Introductionmentioning

confidence: 99%

The Influence of Activated Dispersed Additives on Electrical Conductivity of Anhydrite Compositions

Yakovlev

Begunova

Drochytka

et al. 2021

SSP

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The paper presents the results of studies of the structure and properties of a fluorohydrite binder modified by a chrysotile nanotubes dispersion in a medium of calcium nitrate solution. It is shown that addition of this modifier into the anhydrite composition leads to a 106-fold decrease in electrical resistance. Microstructural analysis of the fluorohydrite composition showed changes in the morphology of new formations with the creation of crystalline hydrates of increased density. The presence of elongated nanocrystals on the surface of the hardened matrix was noted. In addition, IR spectrum absorption lines, prove the presence of calcium nitrate in the pore space of the composition, which contributes to a significant decrease in the electrical resistance of the developed composite.

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