AbstractAbout AuthorsReferences
Influence of hydrated lime dispersity on the properties of plaster mix and plaster mortar have been carried out in the article. It was concluded that high dispersion of Са(ОН)2 particles makes an increase of plasticity and water-retaining capacity of the plaster mix and the hardened mortar strength. Са(ОН)2 particles are getting smaller when lime is hydrated into paste than slaking lime into air-slaked lime. Therefore in order to obtain high-dispersity calcium hydrate in plaster mortar it is desirable to have conditions of slaking mortar closer to the process of making paste. It is can be done by co-slaking lime with sand in silos or reactors on silicate brick plants. The results of differential thermal and X-ray phase analysis supported that plaster mortar based on lime-sand mixture of the silicate brick plant by 28 days of hardening has higher degree of carbonization of lime compared to the mortar based on air-slaked lime while it has uniformly distributed fine-crystalline structure of carbonate calcium which increases the strength of mixture.
V.E. RUMYANTSEVA1, Doctor of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.);
D.A. PANCHENKO2, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.),
Yu.F. PANCHENKO2, Candidate of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.);
V.S. KONOVALOVA1, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
E.N. KHAFIZOVA2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
D.A. PANCHENKO2, Engineer (This email address is being protected from spambots. You need JavaScript enabled to view it.),
Yu.F. PANCHENKO2, Candidate of Sciences (Engineering), (This email address is being protected from spambots. You need JavaScript enabled to view it.);
V.S. KONOVALOVA1, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.),
E.N. KHAFIZOVA2, Candidate of Sciences (Engineering) (This email address is being protected from spambots. You need JavaScript enabled to view it.)
1 Ivanovo State Polytechnic University (21, Sheremetyevo Avenue, 153000, Ivanovo, Russian Federation)
2 Industrial University of Tyumen (2, Lunacharskogo Street, 625001, Tyumen, Russian Federation)
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2. Lyubomirsky N.V., Fedorkin S.I., Bakhtin A.S., Khmelnitsky A.L. Petrographic characteristics of materials for finishing buildings of cultural heritage of Sevastopol of post-war construction of the 40–50s of the twentieth century. Stroitel’stvo i tekhnogennaya bezopasnost’. 2020. No. 19 (71), pp. 45–64. (In Russian).
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6. Loboda A.Yu., Trunkin I.N., Svetogorov R.D. et al. A study of the pigments and cohesive colour layers of the paintings in a church from the tenth to thirteenth centuries on the plateau of Eski-Kermen. Materialy po arheologii, istorii i etnografii Tavrii. 2021. No. 26, pp. 156–174. (In Russian). DOI: 10.37279/2413-189X.2021.26.156-174
7. Nasr Nesrin. Wall painting of Carthage. Educational strategies and initiatives in the ethno-cultural development of the regions of greater Altai: materials of the international scientific and practical conference. Ed. by I.R. Lazarenko. Barnaul: Altai State Pedagogical University. 2016, pp. 112–119. (In Russian).
8. Vinokurov N.I. New data on the construction of the early citadel of the artezian settlement in the Crimean Priozovye. Bosporskie issledovaniya. 2017. No. 35, pp. 180–207. (In Russian).
9. Lukyanova T.A. Technological features of fresco painting of the XVI century on the example of paintings of the Cathedral of the Dormition of the Mother of God of the Assumption monastery of Sviyazhsk. Nauka i sovremennost’. 2011. No. 13–1, pp. 83–94. (In Russian).
10. Isaeva O.A. Technical and stylistic features of monumental painting of Mesoamerica. In the collection: Actual problems of monumental art. Collection of scientific works on the materials of the international scientific and practical conference. Edited by D.O. Antipina. Saint Petersburg. 2021, pp. 123–130. (In Russian).
11. Kuks Yu.M., Lukyanova T.A. History of the fresco paintings (Part 1. Old Russian fresco. Two transformations). Perspektivy nauki i obrazovaniya. 2014.No 4 (10), pp. 127–135. (In Russian).
12. Ivanova Yu.V. Nuzal chapel in North Ossetia. History of research and restoration of architecture and wall painting. In the collection: II International Forum of Restorers «Restoration: theoretical problems and practical activities». Collective monograph based on the materials of the international scientific conference. Moscow. 2020, pp. 105–110. (In Russian).
13. Kuks Yu.M., Lukyanova T.A. History of the development of frescoes (Part 2. Origin of technology of purely calcareous plastering foundations of the fresco). Perspektivy nauki i obrazovaniya. 2014. No. 5 (11),pp. 127–136. (In Russian).
14. Pukharenko Yu.V., Kharitonov A.M., Shangina N.N., Safonova T.Yu. Restoration of historical objects with the use of modern dry building mixtures. Vestnik grazhdanskih inzhenerov. 2011. No. 1 (26), pp. 98–103.(In Russian).
15. Franke R. Invite nature into your home. lime plaster for machine application – MKE. Suhie stroitel’nye smesi. 2011. No. 1, pp. 10–11. (In Russian).
16. Khutorskoy S.V., Erofeev V.T., Smirnov V.F. Biocorrosion and bio-resistance of lime composites. Vestnik of the Volga Regional Branch of the Russian Academy of Architecture and Building Sciences. 2011. No. 14, pp. 132–135. (In Russian).
17. Loganina V.I., Kuimova E.I., Uchaeva T.V. Application of the method of fuzzy preference ratio in assessing the competitiveness of lime dry construction mixture. Vestnik of the Belgorod State Technological University named after V.G. Shukhov. 2015. No. 1,pp. 36–40. (In Russian).
18. Fedosov S.V., Rumyantseva V.E., Loginova S.A. Study of mass transfer processes in biocorrosion of concrete. In the collection: Fundamental, exploratory and applied research of the RAACS on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2020. Collection of scientific works of RAACS: in 2 volumes. Moscow. 2021, pp. 299–303. (In Russian).
19. Khramtsov A.K., Stefanovich A.I. Mikologiya: metod. ukazaniya k spetskursu po razdelu «Ekologiya gribov i gribopodobnykh organizmov». [Mycology: method. instructions for the special course on the section «Ecology of fungi and mushroom-like organisms»]. Minsk: BGU. 2011. 45 p.
20. Fedosov S.V., Rumyantseva V.E., Konovalova V.S., Kasyanenko N.S. Study of the initial stage of acid corrosion of cement stone. In the collection: Fundamental, exploratory and applied research of the RAACS on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2019. Collection of scientific papers RAACS. Moscow. 2020, pp. 454–460. (In Russian).
21. Chesnokova T.V., Rumyantseva V.E., Loginova S.A. Modeling of the process of biodisastruction of concrete at the enterprises of the textile industry. Izvestiya vysshih uchebnyh zavedenij. Tekhnologiya tekstil’noj promyshlennosti. 2020. No. 1 (385), pp. 206–212.(In Russian).
22. Fedosov S.V., Rumyantseva V.E., Krasilnikov I.V., Konovalova V.S., Evsyakov A.S. Colmatation of pores of cement concretes at hydrophobization. In the collection: Fundamental, exploratory and applied research of the Russian Academy of Architecture and Building Sciences on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2018. Moscow. 2019, pp. 563–572.(In Russian). DOI: 10.22337/9785432303134-563-572
23. Pavlíková M, Pavlík Z, Pernicová R, Černý R. The influence of inner hydrophobisation on water transport properties of modified lime plasters // AIP Conference Proceedings. 2016. Iss. 1738. 280005. https://doi.org/10.1063/1.4952065
24. Strokova V.V., Sivalneva M.N., Nerovnaya S.V., Vtorov B.B. Plaster coverings as a regulator of indoor microclimate parameters: an overview of theoretical and experimental research. Stroitel’nye Materialy [Construction Materials]. 2021. No. 7, pp. 32–72.(In Russian). DOI: https://doi.org/10.31659/0585-430X-2021-793-7-32-72
25. Antonenko N.N., Orekhov S.A., Serikov S.V., Mazepa A.K. Lime as an binder in repair mix. In the collection: Modern scientific research. Theory, methodology, practice. Collection of scientific articles based on materials of the VI International Scientific and Practical Conference. Ufa. 2021, pp. 279–284. (In Russian).
26. Shangina N.N., Kharitonov A.M. Features of production and application of dry building mixtures for the restoration of architectural monuments. Suhie stroitel’nye smesi. 2011. No. 4, pp. 16–19. (In Russian).
27. Khavkin L.M. Tekhnologiya silikatnogo kirpicha. Reprintnoye vosproizvedeniye izdaniya 1982 g. [Silicate brick technology. Reprint reproduction of the 1982 edition]. Moscow: EKOLIT, 2011. 384 p.
28. Hint Y.A. Osnovy proizvodstva silikatnykh izdeliy [Fundamentals of the production of silicate products]. Moscow-Leningrad: State publishing house of literature on construction, architecture and building materials. 1962. 642 p.
29. Lyubomirsky N.V., Fedorkin S.I., Bakhtin A.S., Bakhtina T.A., Nikolaenko E.Yu., Nikolaenko V.V. Konstruktsionnye i teploizolyatsionnye stroitel’nye materialy prinuditel’nogo karbonatnogo tverdeniya iz vtorichnogo syr’ya: monografiya. [Structural and heat-insulating building materials of forced carbonate hardening from secondary raw materials: monograph]. Simferopol: ARIAL. 2021. 408 p.
30. Mamykin N.A. predeleniye srednikh razmerov OKR i srednikh mikrodeformatsiy metodom approksimatsii [Determination of the average sizes of CSR and average microdeformations by the approximation method]. Chelyabinsk: 1991. 16 p.
2. Lyubomirsky N.V., Fedorkin S.I., Bakhtin A.S., Khmelnitsky A.L. Petrographic characteristics of materials for finishing buildings of cultural heritage of Sevastopol of post-war construction of the 40–50s of the twentieth century. Stroitel’stvo i tekhnogennaya bezopasnost’. 2020. No. 19 (71), pp. 45–64. (In Russian).
3. Loganina V.I. Dry building mixtures for the restoration of buildings of historical buildings. Regional’naya arhitektura i stroitel’stvo. 2015. No. 3 (24), pp. 34–42. (In Russian).
4. Gourdin W.H., Kingery W.D. The Beginnings of pyrotechnology: neolithic and egyptian lime plaster. Journal of Field Archaeology. 1975. Vol. 2:1–2,pp. 133–150. DOI: 10.1179/009346975791491277
5. Ullman М., Brailovsky L., Schechter H.C., Weissbrod L., Zuckerman-Cooper R., Toffolo M.B., Caracuta V., Boaretto E., Weineri S., Abramov J., Bar-Yosef Mayer D.E., Wolff Avrutis V., Kol-Ya’kov S., Frumkin A. The early Pre-Pottery Neolithic B site at Nesher-Ramla Quarry, Israel. Quaternary International. 2022. Vol. 624, pp. 148–167 https://doi.org/10.1016/j.quaint.2021.04.019
6. Loboda A.Yu., Trunkin I.N., Svetogorov R.D. et al. A study of the pigments and cohesive colour layers of the paintings in a church from the tenth to thirteenth centuries on the plateau of Eski-Kermen. Materialy po arheologii, istorii i etnografii Tavrii. 2021. No. 26, pp. 156–174. (In Russian). DOI: 10.37279/2413-189X.2021.26.156-174
7. Nasr Nesrin. Wall painting of Carthage. Educational strategies and initiatives in the ethno-cultural development of the regions of greater Altai: materials of the international scientific and practical conference. Ed. by I.R. Lazarenko. Barnaul: Altai State Pedagogical University. 2016, pp. 112–119. (In Russian).
8. Vinokurov N.I. New data on the construction of the early citadel of the artezian settlement in the Crimean Priozovye. Bosporskie issledovaniya. 2017. No. 35, pp. 180–207. (In Russian).
9. Lukyanova T.A. Technological features of fresco painting of the XVI century on the example of paintings of the Cathedral of the Dormition of the Mother of God of the Assumption monastery of Sviyazhsk. Nauka i sovremennost’. 2011. No. 13–1, pp. 83–94. (In Russian).
10. Isaeva O.A. Technical and stylistic features of monumental painting of Mesoamerica. In the collection: Actual problems of monumental art. Collection of scientific works on the materials of the international scientific and practical conference. Edited by D.O. Antipina. Saint Petersburg. 2021, pp. 123–130. (In Russian).
11. Kuks Yu.M., Lukyanova T.A. History of the fresco paintings (Part 1. Old Russian fresco. Two transformations). Perspektivy nauki i obrazovaniya. 2014.No 4 (10), pp. 127–135. (In Russian).
12. Ivanova Yu.V. Nuzal chapel in North Ossetia. History of research and restoration of architecture and wall painting. In the collection: II International Forum of Restorers «Restoration: theoretical problems and practical activities». Collective monograph based on the materials of the international scientific conference. Moscow. 2020, pp. 105–110. (In Russian).
13. Kuks Yu.M., Lukyanova T.A. History of the development of frescoes (Part 2. Origin of technology of purely calcareous plastering foundations of the fresco). Perspektivy nauki i obrazovaniya. 2014. No. 5 (11),pp. 127–136. (In Russian).
14. Pukharenko Yu.V., Kharitonov A.M., Shangina N.N., Safonova T.Yu. Restoration of historical objects with the use of modern dry building mixtures. Vestnik grazhdanskih inzhenerov. 2011. No. 1 (26), pp. 98–103.(In Russian).
15. Franke R. Invite nature into your home. lime plaster for machine application – MKE. Suhie stroitel’nye smesi. 2011. No. 1, pp. 10–11. (In Russian).
16. Khutorskoy S.V., Erofeev V.T., Smirnov V.F. Biocorrosion and bio-resistance of lime composites. Vestnik of the Volga Regional Branch of the Russian Academy of Architecture and Building Sciences. 2011. No. 14, pp. 132–135. (In Russian).
17. Loganina V.I., Kuimova E.I., Uchaeva T.V. Application of the method of fuzzy preference ratio in assessing the competitiveness of lime dry construction mixture. Vestnik of the Belgorod State Technological University named after V.G. Shukhov. 2015. No. 1,pp. 36–40. (In Russian).
18. Fedosov S.V., Rumyantseva V.E., Loginova S.A. Study of mass transfer processes in biocorrosion of concrete. In the collection: Fundamental, exploratory and applied research of the RAACS on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2020. Collection of scientific works of RAACS: in 2 volumes. Moscow. 2021, pp. 299–303. (In Russian).
19. Khramtsov A.K., Stefanovich A.I. Mikologiya: metod. ukazaniya k spetskursu po razdelu «Ekologiya gribov i gribopodobnykh organizmov». [Mycology: method. instructions for the special course on the section «Ecology of fungi and mushroom-like organisms»]. Minsk: BGU. 2011. 45 p.
20. Fedosov S.V., Rumyantseva V.E., Konovalova V.S., Kasyanenko N.S. Study of the initial stage of acid corrosion of cement stone. In the collection: Fundamental, exploratory and applied research of the RAACS on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2019. Collection of scientific papers RAACS. Moscow. 2020, pp. 454–460. (In Russian).
21. Chesnokova T.V., Rumyantseva V.E., Loginova S.A. Modeling of the process of biodisastruction of concrete at the enterprises of the textile industry. Izvestiya vysshih uchebnyh zavedenij. Tekhnologiya tekstil’noj promyshlennosti. 2020. No. 1 (385), pp. 206–212.(In Russian).
22. Fedosov S.V., Rumyantseva V.E., Krasilnikov I.V., Konovalova V.S., Evsyakov A.S. Colmatation of pores of cement concretes at hydrophobization. In the collection: Fundamental, exploratory and applied research of the Russian Academy of Architecture and Building Sciences on scientific support for the development of architecture, urban planning and the construction industry of the Russian Federation in 2018. Moscow. 2019, pp. 563–572.(In Russian). DOI: 10.22337/9785432303134-563-572
23. Pavlíková M, Pavlík Z, Pernicová R, Černý R. The influence of inner hydrophobisation on water transport properties of modified lime plasters // AIP Conference Proceedings. 2016. Iss. 1738. 280005. https://doi.org/10.1063/1.4952065
24. Strokova V.V., Sivalneva M.N., Nerovnaya S.V., Vtorov B.B. Plaster coverings as a regulator of indoor microclimate parameters: an overview of theoretical and experimental research. Stroitel’nye Materialy [Construction Materials]. 2021. No. 7, pp. 32–72.(In Russian). DOI: https://doi.org/10.31659/0585-430X-2021-793-7-32-72
25. Antonenko N.N., Orekhov S.A., Serikov S.V., Mazepa A.K. Lime as an binder in repair mix. In the collection: Modern scientific research. Theory, methodology, practice. Collection of scientific articles based on materials of the VI International Scientific and Practical Conference. Ufa. 2021, pp. 279–284. (In Russian).
26. Shangina N.N., Kharitonov A.M. Features of production and application of dry building mixtures for the restoration of architectural monuments. Suhie stroitel’nye smesi. 2011. No. 4, pp. 16–19. (In Russian).
27. Khavkin L.M. Tekhnologiya silikatnogo kirpicha. Reprintnoye vosproizvedeniye izdaniya 1982 g. [Silicate brick technology. Reprint reproduction of the 1982 edition]. Moscow: EKOLIT, 2011. 384 p.
28. Hint Y.A. Osnovy proizvodstva silikatnykh izdeliy [Fundamentals of the production of silicate products]. Moscow-Leningrad: State publishing house of literature on construction, architecture and building materials. 1962. 642 p.
29. Lyubomirsky N.V., Fedorkin S.I., Bakhtin A.S., Bakhtina T.A., Nikolaenko E.Yu., Nikolaenko V.V. Konstruktsionnye i teploizolyatsionnye stroitel’nye materialy prinuditel’nogo karbonatnogo tverdeniya iz vtorichnogo syr’ya: monografiya. [Structural and heat-insulating building materials of forced carbonate hardening from secondary raw materials: monograph]. Simferopol: ARIAL. 2021. 408 p.
30. Mamykin N.A. predeleniye srednikh razmerov OKR i srednikh mikrodeformatsiy metodom approksimatsii [Determination of the average sizes of CSR and average microdeformations by the approximation method]. Chelyabinsk: 1991. 16 p.
For citation: Rumyantseva V.E., Panchenko D.A., Panchenko Yu.F., Konovalova V.S., Khafizova E.N. Composition development of a dry plaster based on high-dispersity lime. Stroitel’nye Materialy [Construction Materials]. 2023. No. 6, pp. 57–64. (In Russian). DOI: https://doi.org/10.31659/0585-430X-2023-814-6-57-64