Contemporary Decorative Materials based on Polymer Binders and Mineral Raw Materials for Construction Purposes


Begentayev M.M. Nurlybayev R.E. Altayeva Z.N. Kuldeyev E.I. Orynbekov Y.S. Yestemessova A.S. Iskakov A.A. Murzagulova A.A. Abisheva G.K. Joldassov A.A.
1 September 2025Engineered Science Publisher

ES Materials and Manufacturing
2025#29

The decorative materials for construction work including lacquer coating are of great demand. Contemporary paint and lacquer coating materials have recently demonstrated a growing tendency to include fine-dispersed mineral fillers and polymeric binders. This combination enables regulation of pigment particle wetting, disaggregation, and stabilization processes due to targeted modification of the surface energy of film-forming agents at interfaces with adjacent phases (e.g., air, steel substrate, and pigment). In this regard, this article considers compatibility of polymer binders and finely dispersed mineral dusts. Selection of components is carried out by determining surface tension parameter, which was determined by method of Ounce, Wendt, Rabel and Kaelble (OWRK), wherein raw materials have close values of polar and dispersion components, due to elimination of the imbalance of intermolecular forces at interface between filler and polymer binder phases. It has been shown that, for fine-dispersed materials (diatomite and lime) in comparison with quartz sand powder (used as a control) determination of the contact angle requires corrective adjustment of the baseline position to align with interface level of the fine-dispersed material. Astringency of water-dispersion and coating compositions was 17.5-21 c according to VZ-4, adhesion to solution substrate-1 point, washability-no more than 2 g/m2. Thus, the findings demonstrated complete compatibility of fine-dispersed filler fractions (diatomite and lime) with polymeric binder in formulation of water-based dispersion paint that complies with established regulatory requirements.

Activated diatomite , Adhesion, contact angle of wetting , Finely dispersed mineral dusts , Lime, polymer binders , Polyacrylate dispersion

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Institute of Architecture and Civil Engineering, Satbayev University, 22 Satbayev street, Almaty, 050013, Kazakhstan
Faculty of Construction Technologies, Infrastructure and Management, International Educational Corporation, 28 Ryskulbekov street, Almaty, 050043, Kazakhstan
LLP SAVENERGY, Microdistrict Akkent, 4, Almaty, 050033, Kazakhstan

Institute of Architecture and Civil Engineering
Faculty of Construction Technologies
LLP SAVENERGY

10 лет помогаем публиковать статьи Международный издатель

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