Abstract
The mineral composition, surface morphology, dispersion and specific surface of dispersed clay fillers of various chemical nature have been experimentally determined. As materials for research used clay mineral disperse fillers of various chemical and mineral composition: bentonite clay, kaolinite clay and diabase flour. Using the thermogravimetric (TG) analysis and the differential thermal analysis (DTA), the structure of the hydroxyl-hydrated surface layer of the filler surface has been studied. The amount and acidity of the surface active centers of clay fillers have been investigated using pK-metric and pH-metric methods. It was established that the mineral composition is the determining factor in the acid-base surface properties of clay fillers. The thickness of the hydroxyl-hydrated surface layer affects the acidity of the surface, at certain large sizes. It has been shown that clay fillers, which include montmorillonite as the dominant minerals, are characterized by higher acidity than the fillers that consist of kaolinite. In the mixed clay fillers, the acid-base properties of the surface depend on the chemical nature of the impurities and related minerals.
Highlights
Natural clay disperse fillers are widely used in the development of new polymer composites and other composite materials of various applications
Adding clay fillers ensures the production of polymer materials with certain decorative properties, which is important when used in architecture, restoration and design [8, 9]
It was established that the mineral composition is the determining factor in the acid-base surface properties of clay fillers
Summary
Natural clay disperse fillers are widely used in the development of new polymer composites and other composite materials of various applications. Cheap clay fillers are added to composites in order to increase the economic and environmental attractiveness of building and restoration polymer materials. Disperse clay fillers of various chemical and mineral nature can provide special properties to materials (for example, resistance to biologically aggressive media, fire resistance, vibration absorbing properties, etc.) [2,3,4]. In this case, the materials become multifunctional, that is, they can simultaneously provide several necessary operational or technological requirements. Adding clay fillers ensures the production of polymer materials with certain decorative properties, which is important when used in architecture, restoration and design [8, 9].
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