RESEARCH OF BUILDING MATERIALS

Physical and mechanical properties of composites based on liquid glass for buildings and structures

Vestnik MGSU 7/2015
  • Markov Sergey Vital’evich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, Professor, Department of Housing and Utility Complex, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Zavalishin Evgeniy Vasil’evich - Ogarev Mordovia State University Candidate of Technical Sciences, Associate Professor, vice dean, Department of Construction and Architecture, Ogarev Mordovia State University, 68 Bolshevistskaya Str., Saransk, 430005, Republic of Mordovia, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Yunkevich Aleksey Vladimirovich - Research Design-and-engineering and Technological Institute (JC “VNIIzhelezobeton” ) engineer, Research Design-and-engineering and Technological Institute (JC “VNIIzhelezobeton” ), 62 A 2-ya Vladimirskaya str., Moscow, 111141, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 69-78

Composite materials for building structures have certain advantages. In this field Russian scientists got patents for inventions and useful models of new construction materials and structures. Scientific investigations on determining deformation capacity of concretes and building structures of other materials (wood) and their limit states are continuing with account for force and environment impacts and degradation weakening of construction elements. The article presents the study of physical and mechanical properties of composites based on liquid glass, depending on their quantitative and qualitative composition. The properties of the composites based on liquid glass depend on the type, quality of the composites in the material, their durability, correlation of their strength properties, adhesion of binders and filler, etc. In the studied composites different filler content, hardener, as well as modifying additives were used, that improve the properties of materials.

DOI: 10.22227/1997-0935.2015.7.69-78

References
  1. Erofeev V.T., Travush V.I., Karpenko N.I., Bazhenov Yu.M., Zhidkin V.F., Rodin A.I., Rimshin V.I., Smirnov V.F., Bogatov A.D., Kaznacheev S.V., Rodina M.A. Patent 2491239 RF, MPK C04B 7/52. Biotsidnyy portlandtsement. Zayavka № 2012107175/03 ; zayavl. 27.02.2012; opubl. 27.08.2013. Byul. № 24 [Russian Patent 2491239 RF, MPK C04B 7/52. Biocide Portland Cement. Notice no. 2012107175/03 ; appl. 27.02.2012; publ. 27.08.2013. Bulletin no. 24]. Patent holder FGBOU VPO “MGU im. N.P. Ogareva”. 4 p. (In Russian)
  2. Erofeev V.T., Rimshin V.I., Bazhenov Yu.M., Travush V.I., Karpenko N.I., Magdeev U.Kh., Zhidkin V.F., Burnaykin N.F., Rodin A.I., Smirnov V.F., Bogatov A.D., Kaznacheev S.V. Patent 2491240 RF, MPK C04B 7/52. Biotsidnyy portlandtsement. Zayavka № 2012107722/03; zayavl. 29.02.2012; opubl. 27.08.2013. Byul. № 24 [Russian Patent 2491240 RF, MPK C04B 7/52. Biocide Portland Cement. Notice no. 2012107722/03; appl. 29.02.2012; publ. 27.08.2013. Bulletin no. 24]. Patent holder FGBOU VPO “MGU im. N.P. Ogareva”. 4 p. (In Russian)
  3. Erofeev V.T., Rimshin V.I., Bazhenov Yu.M., Magdeev U.Kh., Zhidkin V.F., Burnaykin N.F.,Rodin A.I., Bogatov A.D., Kaznacheev S.V., Rodina M.A. Patent 2496729 RF, MPK C04B. Portlandtsement. Zayavka № 2012107720 ; zayavl. 29.02.2012 ; opubl. 27.10.2013 [Russian Patent 2496729 RF, MPK C04B. Portland Cement. Notice no. 2012107720 ; appl. 29.02.2012 ;publ. 27.10.2013]. Bank patentov [Bank of Patents]. Patent holder FGBOU VPO “MGU im. N.P. Ogareva”. Available at: http://bankpatentov.ru/node/426361. Date of access: 15.05.2015. (In Russian)
  4. Erofeev V.T., Bazhenov Yu.M., Magdeev U.Kh., Zhidkin V.F., Rodin A.I., Rimshin V.I.,Bogatov A.D., Burnaykin N.F., Kaznacheev S.V., Rodina M.A. Patent 2496728 RF, MPK C04B. Portlandtsement. Zayavka № 2012107174 ; zayavl. 27.02.2012 ; opubl. 27.10.2013 [Russian Patent no. 2496728 RF, MPK C04B. Portland Cement. Notice no. 2012107174 ; appl. 27.02.2012 ; publ. 27.10.2013]. Bank patentov [Bank of Patents]. Patent holder FGBOU VPO “MGU im. N.P. Ogareva”. Available at: http://bankpatentov.ru/node/426360. Date of access: 15.05.2015. (In Russian)
  5. Anpilov S.M., Gaynulin M.M., Eryshev V.A., Murashkin V.G., Murashkin G.V., Anpilov M.S., Rimshin V.I., Sorochaykin A.N. Patent RF na poleznuyu model’ 147740. Nes”emnaya stenovaya opalubka. Opubl. 08.07.2014 [Russian Useful Model Patent 147740. Permanent Wall Form. Publ. 08.07.2014]. Poleznaya model’.ru [Useful Model.ru]. Available at: http://poleznayamodel.ru/model/14/147740.html/. Date of access: 15.05.2015. (In Russian)
  6. Anpilov S.M., Eryshev V.A., Gaynulin M.M., Murashkin V.G., Murashkin G.V., Anpilov M.S., Rimshin V.I., Sorochaykin A.N. Patent RF na poleznuyu model’ 147452. Sbornyy stroitel’nyy element : referat. Opubl. 08.07.2014 [Russian Useful Model Patent 147452. Ready-made Building Element : Report. Publ. 08.07.2014]. Poleznaya model’.ru [Useful Model.ru]. Available at: http://poleznayamodel.ru/model/14/147452.html/. Date of access: 15.05.2015. (In Russian)
  7. Bondarenko V.M., Rimshin V.I. Kvazilineynye uravneniya silovogo soprotivleniya i diagramma σ−ε betona [Quasilinear Equations of Force Resistance and Diagram of σ−ε Concrete]. Stroitel’naya mekhanika inzhenernykh konstruktsiy i sooruzheniy [Structural Mechanics of Engineering Structures and Constructions]. 2014, no. 6, pp. 40—44. (In Russian)
  8. Bondarenko V.M., Kurzanov A.M., Rimshin V.I. Mekhanizm seysmicheskikh razrusheniy zdaniy [Mechanism of Seismic Destruction of Buildings]. Vestnik Rossiyskoy akademii nauk [Bulletin of the Russian Academy of Sciences]. 2000, vol. 70, no. 11, pp. 1005—1009. (In Russian)
  9. Bondarenko V.M., Rimshin V.I. Ostatochnyy resurs silovogo soprotivleniya povrezhdennogo zhelezobetona [Residual Life of Force Resistance of Damaged Reinforced Concrete]. Vestnik otdeleniya stroitel’nykh nauk Rossiyskoy akademii arkhitektury i stroitel’nykh nauk [Bulletin of the Department of Construction Sciences of the Russian Academy of Architecture and Construction Sciences]. 2005, no. 9, pp. 119—126. (In Russian)
  10. Krishan A.L., Astaf’eva M.A., Narkevich M.Yu., Rimshin V.I. Opredelenie deformatsionnykh kharakteristik betona [Definition of the Deformation Properties of Concrete]. Estestvennye i tekhnicheskie nauki [Natural and Technical Sciences]. 2014, no. 9—10 (77), pp. 367—369. (In Russian)
  11. Krishan A.L., Astaf’eva M.A., Rimshin V.I. Predel’nye otnositel’nye deformatsii tsentral’no-szhatykh zhelezobetonnykh elementov [Limit Relative Deformations of Axially Loaded Reinforced Concrete Elements]. Estestvennye i tekhnicheskie nauki [Natural and Technical Sciences]. 2014, no. 9—10 (77), pp. 370—372. (In Russian)
  12. Kurbatov V.L., Rimshin V.I. Prakticheskoe posobie inzhenera-stroitelya [Practical Guide of Civil Enineer]. Moscow, Student Publ., 2012, 743 p. (In Russian)
  13. Larionov E.A., Rimshin V.I., Vasil’kova N.T. Energeticheskiy metod otsenki ustoychivosti szhatykh zhelezobetonnykh elementov [Energy Method of Estimating the Resistance of Compressed Reinforced Concrete Elements]. Stroitel’naya mekhanika inzhenernykh konstruktsiy i sooruzheniy [Structural Mechanics of Engineering Constructions and Buildings]. 2012, no. 2, pp. a77—81. (In Russian)
  14. Roshchina S.I., Rimshin V.I. Raschet deformatsiy izgibaemykh armirovannykh derevyannykh elementov s uchetom polzuchesti [Deformation Calculation of Bendable Reinforced Wooden Elements woth Account for Creep]. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta [News of Southwest State University]. 2011, no. 1 (34), pp. 121—124. (In Russian)
  15. Rimshin V.I., Bikbov R.Kh., Kustikova Yu.O. Nekotorye elementy usileniya stroitel’nykh konstruktsiy kompozitnymi materialami [Some Elements of Building Structures Reinforcement with Composite Materials]. Vestnik BelGTU [Bulletin of BSTU named after V.G. Shukhov]. 2005, no. 10, pp. 381—383. (In Russian)
  16. Rimshin V.I., Kustikova Yu.O. Fenomenologicheskie issledovaniya velichiny stsepleniya bazal’toplastikovoy armatury s betonom [Phenomenological Analysis of Linkage Value of Basalt-Plastic Reinforcement with Concrete]. Izvestiya Yugo-Zapadnogo gosudarstvennogo universiteta. Seriya: Tekhnika i tekhnologii [News of Southwest State University. Series: Equipment and Technologies]. 2011, no. 1, pp. 27—31. (In Russian)
  17. Rimshin V.I., Kustikova Yu.O. Mekhanika deformirovaniya i razrusheniya usilennykh zhelezobetonnykh konstruktsiy [Mechanics of Deformation and Destruction of Reinforced Concrete Structures]. Izvestiya Orlovskogo gosudarstvennogo tekhnicheskogo universiteta. Seriya: Stroitel’stvo i transport [News of Orlov State Technical University. Series: Construction and Transport]. 2007, no. 3/15 (537), pp. 53—56. (In Russian)
  18. VSN 53-86(r). Pravilo otsenki fizicheskogo iznosa zhilykh zdaniy [Construction Norms VSN 53-86(r). Rules of Estimating the Physical Wear of Residential Buildings]. Moscow, Gosgrazhdanstroy Publ., 1988, 50 p. (In Russian)
  19. Rimshin V.I., Shubin L.I., Savko A.V. Resurs silovogo soprotivleniya zhelezobetonnykh konstruktsiy inzhenernykh sooruzheniy [Life of Force Resistance of Reinforced Concrete Structures of Engineering Constructions]. Academia. Arkhitektura i stroitel’stvo [Academia. Architecture and Construction]. 2009, no. 5, pp. 483—491. (In Russian)
  20. Rimshin V.I., Galubka A.I., Sinyutin A.V. Inzhenernyy metod rascheta usileniya zhelezobetonnykh plit pokrytiya kompozitnoy armaturoy [Engineering Calculation Method of Concrete Slab Reinforcement by Composite Reinforcement]. Nauchno-tekhnicheskiy vestnik Povolzh’ya [Scientific and Technical Volga region Bulletin]. 2014, no. 3, pp. 218—220. (In Russian)
  21. Telichenko V.I., Rimshin V.I. Kriticheskie tekhnologii v stroitel’stve [Critical Technologies in Construction]. Vestnik Otdeleniya stroitel’nykh nauk RAASN [Bulletin of the Department of Construction Sciences of the Russian Academy of Architecture and Construction Sciences]. 1998, no. 4, pp. 16—18. (In Russian)
  22. Erofeev V.T., Bazhenov Yu.M., Zavalishin E.V., Bogatov A.D., Astashov A.M., Korotaev S.A., Nikitin L.V. Silikatnye i polimersilikatnye kompozity karkasnoy struktury rolikovogo formovaniya [Silicate and Polymer-silicate Composites of the Frame Structure of Roller Forming]. Moscow, ASV Publ., 2009, 160 p. (In Russian)
  23. Zavalishin E.V. Biologicheskoe soprotivlenie kompozitov na osnove zhidkogo stekla : avtoreferat dissrtatsii … kandidata tekhnicheskikh nauk [Biological Resistance of the Composites Based on Liquid Glass : Author’s Thesis of Candidate of Technical Sciences]. Penza, 2002, 18 p. (In Russian)
  24. Zavalishin E.V., Erofeev V.T., Smirnov V.F. Biologicheskoe soprotivlenie kompozitov na osnove zhidkogo stekla [Biological Resistance of the Composites Based on Liquid Glass ].Biopovrezhdeniya i biokorroziya v stroitel’stve : materialy II Mezhdunarodnoy nauchno-tekhnicheskoy konferentsii [Biodeteriorations and Biocorrosion in Construction : Materials of the 2nd International Science and Technical Conference]. Saransk, 2004, pp. 156—159. (In Russian)
  25. Perlin S.M., Makarov V.G. Khimicheskoe soprotivlenie stekloplastikov [Chemical Resistance of Fiberglass]. Moscow, Khimiya Publ., 1983, 184 p. (In Russian)
  26. Khrulev V.M. Polimersilikatnye kompozitsii v stroitel’stve [Polymer-silicate Compositions in Constrution]. Ufa, TAU Publ., 2002, 76 p. (In Russian)
  27. Rimshin V.I., Larionov E.A., Erofeyev V.T., Kurbatov V.L. Vibrocreep of Concrete with a Nonuniform Stress State. Life Science Journal. 2014, vol. 11, no. 11, pp. 278—280.
  28. Awaya H., Kajiyama H., Oda N. Suppression of the Corrosive Properties of Calcium Chloride. Japan. 78, 13179. May 08.78; Chem Abstr., 89, 116866.
  29. Christophliemk P. Herstellung, Struktur und Chemietechnisch wichtiger Alkalisilicate. Glastechnische Berichte. 1985, vol. 58, no. 11, pp. 308–—314.
  30. Csutor J. Gravitacios betonsöverk guartasa hendelessel. Epitöanyag. 1973, no. 11, pp. 423—431.
  31. Friedemann W. Anwendungsvielfalt des Rohstoffes Wasserglas. Glastechnische Berichte. 1985, vol. 58, no. 11, pp. 315—319.
  32. Vail J.G. Soluble Silicates (ACS Monograph Series). Reinhold, New York, 1952, vol. 1, pp. 158; Vol. 2, p. 549.
  33. Weldes H.H., Lange K.R. Properties of Soluble Silicates. Ind. Eng. Chem. 1969, vol. 61, no. 4, pp. 29—44. DOI: http://dx.doi.org/10.1021/ie50712a008.
  34. Williamson G., Glasser F.P. The Crystallization of Na2O∙2SiO2. Phys. Chem. Glasses. 1966, vol. 7, no. 4, pp. 127—128.

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