INFLUENCE OF SYNTHETIC POLYSACCHARIDES ADDITIVES ON STRUCTURE FORMATION OF LIME COMPOSITES

Main Article Content

Valentina Loganina
Salman Al D. S. D.
Irina Erofeeva
Stanislav Sergeev

Abstract

The purpose of this work is to study the effect of synthetic polysaccharides on the structure formation and properties of lime coatings. Information is provided on the influence of synthetic polysaccharides on the structure formation of lime coatings. It has been shown that due to the water-retaining effect of the additive, more favorable conditions are created for lime carbonation. Using X-ray phase and thermographic analysis, optical and infrared spectroscopy, the presence of inter- and intracrystalline organic compounds was established, which modify the (nano)structure of newly formed calcite crystals and increase the strength of lime coatings.

Downloads

Download data is not yet available.

Article Details

Section

Articles

How to Cite

Loganina, V., Al D. S. D., S., Erofeeva, I., & Sergeev, S. (2026). INFLUENCE OF SYNTHETIC POLYSACCHARIDES ADDITIVES ON STRUCTURE FORMATION OF LIME COMPOSITES. International Journal for Computational Civil and Structural Engineering, 22(2), 105-112. https://doi.org/10.22337/2587-9618-2026-22-2-105-112

References

R. Beates, Chemical additives to improve the quality of building mortars, Construction materials, 3, 14–18 (1999).

Kasimkina M. M., Svetlov D. A., Kaznacheev S. V., Bogatov A.D., Boriskin A. S., Erofeev V. T. Investigation of the physico-mechanical properties of epoxy composites with the fungicidal additive «Teflex» // Transport construction. – 2009. – № 2. – Pp. 29–30.

Erofeev V. T., Afonin V. V., Cherushova N. V., Zotkina M. M., Mitina E. A., Zotkina V. B., Erofeeva I. V. Methods and algorithms for assessing the surface quality of building products and structures. Fundamental Research. – 2016. – №. 4-1. – Pp. 33–40.

Startsev O. V., Molokov M.V., Erofeev V. T., Krotov A. S., Gudozhnikov S. S. The influence of climatic aging on moisture transfer of wood with protective coatings // Fundamental research. – 2016. – № 3-3. – Pp. 526–532.

Elchishcheva, T., Afonin, V., Erofeeva, I., Atmanzin, A., Matrosova, C. Biostability of Plastering Systems in Buildings and Structures // Lecture Notes in Civil Engineering. – 2021. – 150 LNCE. Pp. 379–390.

Khutorskoy S. V., Erofeev V. T., Smirnov V. F. Increasing the biological resistance of lime-based composites using fungicidal additives // Izvestiya Kazan State University of Architecture and Civil Engineering. – 2013. – № 2 (24). – Pp. 281–286.

Bazhenov Yu. M., Erofeev V. T., Khutorskoy S. V., Petryakov D. N., Smirnov V. F. Optimization of compositions of slaked lime composites in terms of biological resistance // Industrial and civil engineering. – 2015. – № 2. – Pp. 28–32.

Dergunova A. V., Piksaykina A. A., Bogatov A. D., Salman Al D. S. D., Erofeev V. T. The economic damage from biodeterioration in building sector // IOP Conference Series: Materials Science and Engineering. – Volume 698. – Issue 7. – 18 December 2019. –International Scientific Conference on Construction and Architecture: Theory and Practice for the Innovation Development. – CATPID. – 2019. – Kislovodsk. – Р. 1–6.

Khutorskoy S. V., Matviyevsky A. A., Smirnov V. F., Erofeev V. T. Biological resistance of lime composites on activated mixing water // Volga Scientific Journal. – 2013. – № 1 (25). – Pp. 22–25.

Erofeev V., Dergunova A., Piksaikina A., (...), Startsev O., Matvievskiy A. The Effectiveness of Materials Different with Regard to Increasing the Durability // MATEC Web of Conferences. – 2016. – 73,04021.

Erofeev V., Kalashnikov V., Emelyanov D., (...), Tretiakov I., Matvievskiy A. Biological resistance of cement composites filled with limestone powders. // Solid State Phenomena 871. – 2016. – P. 22–27

Startsev O., Makhonkov A., Erofeev V., Gudojnikov S. Impact of moisture content on dynamic mechanical properties and transition temperatures of wood. // Wood Material Science and Engineering. – 2017. – 12(1). – P. 55–62.

Valentina Loganina, Olga Davydova, Roman Fediuk, Mugahed Amran, Sergey Klyuev, Alexander Klyuev, Linar Sabitov and Karina Nabiullina, Improving the durability of lime finishing mortars by modifying them with silicic acid sol, Materials, 15, 2360 (2022).

Maria Zaytseva and Valentina Loganina, Structure the Lime Composite in the Presence of the Addition of a Polysilicate Solution, AIP Conf. Proc., 3154, 020007-1–020007-5 (2023)

Valentina Loganina, Vadim Pylaev, Physical and Mechanical Properties of Lime Coatings with the Additive of Polysaccharides,E3S Web of Conferences 533, 01002 (2024)

Yang, Fuwei, Zhang, Bingjian, Ma, Qinglin, Study of Sticky Rice-Lime Mortar Technology for the Restoration of Historical Masonry Construction, Accounts of Chemical Research, 43 (6), 936-944 (2010).

P. Degryse, Study of ancient mortars from Sagalassos (Turkey) in view of their conservation, Cement and Concrete Research, 32(1457), 63(2002).

C. Genestar, C.Pons. Ancient covering plaster mortars from several convents and Islamic and Gothic palaces in Palma de Mallorca (Spain). Analytical characterization, Journal of Cultural Heritage, 4, 291–298 (2002).

G. Artioli, M. Secco, A. Addis, The Vitruvian legacy: Mortars and binders before and after the Roman world, EMU Notes Miner., 20, 151–202(2019).

K. Elert, E. Ruiz-Agudo, F. Jroundi, M. T. Gonzalez-Muñoz, B. W. Fash, W. L. Fash, N. Valentin, A. de Tagle, C.Rodriguez-Navarro, Degradation of ancient Maya carved tuff stone at Copan and its bacterial bioconservation, npj Mater. Degrad. 5, 44. (2021).

D. Magaloni, R. Pancella, Y. Fruh, J. Cañetas, V. Castaño, Studies on the Mayan mortars technique, MRS Online Proc. Lib., 352,483 (1995).

E. Littmann, R. Ancient, Mesoamerican mortars, plasters, and stuccos: The use of bark extracts in lime plasters Am. Antiquity, 25, 593–597 (1960).

F. Yang, B. Zhang, Q. Ma, Study of sticky rice− Lime mortar technology for the restoration of historical masonry construction, Acc. Chem. Res., 43, 936–944 (2010).

C. Rodriguez-Navarro, E. Ruiz-AgudoBurgos-Cara, K. Elert, Е. Hansen, Crystallization and colloidal stabilization of Ca(OH)2 in the presence of nopal juice (Opuntia ficus indica): Implications in architectural heritage conservation, Langmuir, 33, 10936–10950 (2017).

B. Pokroy, A. Fitch, E. Zolotoyabko, The microstructure of biogenic calcite: A view by high-resolution synchrotron powder diffraction, Adv. Mater. 18, 2363–2368 (2006).

Similar Articles

You may also start an advanced similarity search for this article.

Most read articles by the same author(s)