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Korsun Vladimyr Ivanovych -
Donbas National Academy of Civil Engineering and Architecture (DonNASA)
Doctor of Technical Sciences, Professor, Head, Department of Reinforced Concrete Structures, Donbas National Academy of Civil Engineering and Architecture (DonNASA), 2 Derzhavin str., Makeyevka, Donetsk region, Ukraine, 86123;
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Korsun Artem Vladimirovych -
Donbas National Academy of Civil Engineering and Architecture (DonNASA)
Candidate of Technical Sciences, Associate Professor, Department of Reinforced Concrete Structures, Donbas National Academy of Civil Engineering and Architecture (DonNASA), 2 Derzhavin str., Makeyevka, Donetsk region, Ukraine, 86123;
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The most effective way to reduce the structure mass, labor input and expenses for its construction is to use modern high-performance concrete of the classes С50/60… С90/105, which possess high physical and mathematic characteristics. One of the constraints for their implementation in mass construction in Ukraine is that in design standards there are no experimental data on the physical and mathematic properties of concrete of the classes more than С50/60. Also there are no exact statements on calculating reinforced concrete structures made of high-performance concretes.The authors present the results of experimental research of the scale effect and short-term and long-term heating up to +200 ° C influence on temperature and shrinkage strain, on strength and strain characteristics under compression and tensioning of high-strength modified concrete of class C70/85. The application of high performance concretes is challenging in the process of constructing buildings aimed at operating in high technological temperatures: smoke pipes, coolers, basins, nuclear power plants' protective shells, etc. Reducing cross-sections can lead to reducing temperature drops and thermal stresses in the structures.
DOI: 10.22227/1997-0935.2014.3.179-188
References
- Korsun A.V. Osobennosti deformirovaniya i razrusheniya vysokoprochnykh modifitsirovannykh betonov v usloviyakh nagreva do +200 ?Ñ [Features of Deformation and Destruction of High Performance Modifi ed Concretes in Case of Heating up to +200 °Ñ]. Vestnik DonNASA [Proceedings of Donbas National Academy of Civil Engineering and Architecture]. 2007, no. 1(63), pp. 116—121.
- Korsun V.I. Napryazhenno-deformirovannoe sostoyanie zhelezobetonnykh konstruktsiy v usloviyakh temperaturnykh vozdeystviy [Stress and Strain State of Reinforced Concrete Structures under Thermal Impacts]. Makeevka, DonGASA Publ., 2003, 153 p.
- GOST 24452—80. Betony. Metody opredeleniya prizmennoy prochnosti, modulya uprugosti i koeffitsienta Puassona [Russian State Standard 24452—80. Concretes. Methods of Defining Prism Strength, Elastic Module and Poisson's ratio]. Moscow, Izdatel'stvo standartov Publ., 1980.
- CEN: Eurocode 2 (2004). Design of Concrete Structures: Part 1-1 General Rules and Rules for Buildings, EN 1992-1-1: 2004.
- Korsun V.I., Kalmykov Yu.Yu. Neodnorodnost' prochnostnykh i deformatsionnykh svoystv betona po ob"emu massivnykh elementov konstruktsiy [Heterogeneity of Strength and Strain Properties of Concrete According to the Size of Massive Construction Elements]. Sovremennye problemy stroitel'stva [Current Problems in Construction]. Donetsk, Donetskiy PromstroyNIIproekt, OOO «Lebed'» Publ. 2002, vol. 2, pp. 95—102.
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Lukuttsova Natal’ya Petrovna -
Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering
Doctor of Technical Sciences, Professor, chair, Department of Building Structures Production, Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering, prospekt Stanke Dimitrova str., Bryansk, 241037, Russian Federation;
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Pashayan Ararat Aleksandrovich -
Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering
Doctor of Chemical Sciences, Professor, chair, Department of Chemistry, Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering, prospekt Stanke Dimitrova str., Bryansk, 241037, Russian Federation;
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Khomyakova Ekaterina Nikolaevna -
Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering
postgraduate student, Department of Building Structures Production, Federal State Educational Institution of Higher Education Bryansk State Technological University of Engineering, prospekt Stanke Dimitrova str., Bryansk, 241037, Russian Federation;
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The modern tendencies of construction industry development are connected with the use of new high-efficient materials with the application of resource- and energy-saving technologies of their generation. The use of industrial man-made products as the components improving the characteristics of construction products is now a promising field of research. The article presents the results of the use of waste pickling solutions of steel rolling factories, containing salts of iron as nanomodified additives for the products based on cement binder. The effectiveness of the influence of the considered additives on the structure and strength of fine-grained concrete is shown. If using this additive in the amount of 0.32 % from the mass of cement for 28 days of natural hardening, the fine concrete strength is growing by 1.8 times due to additional formation of hydrosilicates, densification of structure and reduction of the total porosity of the cement system by 2 times.
DOI: 10.22227/1997-0935.2016.1.94-104
References
- Volodchenko A.A., Zagorodnyuk L.Kh., Prasolova E.O., Akhmed A.A., Kulik N.V., Kolomatskiy A.S. Problema ratsional’nogo prirodopol’zovaniya [Problems of Sustainable Nature Management]. Vestnik Belgorodskogo gosudarstvennogo tekhnicheskogo universiteta im. V.G. Shukhova [Bulletin of BSTU named after V.G. Shukhov]. 2014, no. 6, pp. 7—10. (In Russian)
- Bazhenov S.I., Alimov L.A. Vysokokachestvennye betony s ispol’zovaniem otkhodov promyshlennosti [High-quality Concretes with the Use Industrial Wastes]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2010, no. 1, pp. 226—230. (In Russian)
- Ramesh M., Karthic K.S., Karthikeyan T., Kumaravel A. Construction Materials from Industrial Wastes — A Review of Current Practices. International Journal of Environmental Research and Development. 2014, no. 4, pp. 317—324.
- Pati D.J., Iki K., Homma R. Solid Waste as a Potential Construction Material for Cost-Efficient Housing in India. 3rd World Conference on Applied Sciences, Engineering & Technology. Kathmandu, 2014, pp. 240—245.
- Oreshkin D.V. Problemy stroitel’nogo materialovedeniya i proizvodstva stroitel’nykh materialov [Problems of Building Material Science and Building Materials Production]. Stroitel’nye materialy [Construction Materials]. 2010, no. 11, pp. 6—9. (In Russian)
- Alfimova N.I., Cherkasov V.S. Perspektivy ispol’zovaniya otkhodov proizvodstva keramzita v stroitel’nom materialovedenii [Prospects for the Use of Claydite Production Waste in Building Material Science]. Vestnik Belgorodskogo gosudarstvennogo tekhnicheskogo universiteta im. V.G. Shukhova [Bulletin of BSTU named after V.G. Shukhov]. 2010, no. 3, pp. 21—24. (In Russian)
- Buldyzhov A.A., Alimov L.A. Samouplotnyayushchiesya betony s nanomodifikatorami na osnove tekhnogennykh otkhodov [Self-Compacting Concretes with Nanomodifiers on the Basis of Industrial Waste]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering]. 2014, no. 8, pp. 86—88. (In Russian)
- Alfimova N.I., Sheychenko M.S., Karatsupa S.V., Yakovlev E.A., Kolomatskiy A.S., Shapovalov N.N. Features of Application of High-Mg Technogenic Raw Materials as a Component of Composite Binders. Research Journal of Pharmaceutical, Biological and Chemical Sciences. 2014, no. 5, vol. 5, pp. 1586—1591.
- Shapovalov N.N., Kalatozi V.V., Yurakova T.G., Yakovlev O.A. Kompozitsionnye vyazhushchie s ispol’zovaniem tekhnogenogo alyumosilikatnogo syr’ya [Composite Binders with the Use Technogenic Aluminosilicate Raw Material]. Vestnik Belgorodskogo gosudarstvennogo tekhnicheskogo universiteta im. V.G. Shukhova [Bulletin of BSTU named after V.G. Shukhov]. 2015, no. 3, pp. 44—48. (In Russian)
- Tukhareli V.D., Akchurin T.K., Cherednichenko T.F. Effektivnyy modifitsirovannyy beton s ispol’zovaniem otkhodov neftepererabotki dlya monolitnogo stroitel’stva [Effective Modified Concrete for Monolithic Construction with the Use of Refinery Wastes]. Vestnik Volgogradskogo arkhitekturno-stroitel’nogo universiteta. Stroitel’stvo i arkhitektura [Bulletin of Volgograd State University of Architecture and Civil Engineering. Series: Construction and Architecture]. 2014, no. 37 (56), pp. 112—120. (In Russian)
- Lesovik V.S., Strokova V.V. O razvitii nauchnogo napravleniya «nanosistemy v stroitel’nom materialovedenii» [On the Development of Scientific Direction “Nanosystems in Building Material Science”]. Stroitel’nye materialy [Construction Materials]. 2006, no. 9, pp. 93—101. (In Russian)
- Figovskiy O.L., Beylin D.A., Ponomarev A.N. Uspekhi primeneniya nanotekhnologiy v stroitel’nykh materialakh [Success of Applying Nanotechnologies in Construction Materials]. Nanotekhnologii v stroitel’stve: nauchnyy Internet-zhurnal [Nanotechnologies in the Construction : Scientific Online Magazine]. 2012, vol. 4, no. 3, pp. 6—21. Available at: http://nanobuild.ru/ru_RU/journal/Nanobuild_3_2012_RUS.pdf. Date of access: 15.10.2015. (In Russian)
- Yakovlev G.I., Polyanskikh M.S., Machyulaytis R., Kerene Ya., Malayshkene Yu., Kizinevich O., Shaybadullina A.V., Gordina A.F. Nanomodifitsirovanie keramicheskikh materialov stroitel’nogo naznacheniya [Nanomodification of Ceramic Materials for Construction Application]. Stroitel’nye materialy [Construction Materials]. 2013, no. 4, pp. 62—64. (In Russian)
- Lukuttsova N.P., Pykin A.A. Stability of Nanodisperse Additives Based on Metakaolin. Glass and Ceramics. 2015, vol. 71, no. 11, pp. 383—386. DOI: http://dx.doi.org/10.1007/s10717-015-9693-7.
- Lukuttsova N.P., Lesovik V.S., Postnikova O.A., Gornostaeva E.Y., Vasunina S.V., Suglobov A.V. Nano-Disperse Additive Based on Titanium Dioxide. International Journal of Applied Engineering Research. 2014, no. 22, vol. 9, pp. 16803—16811.
- Lukuttsova N., Pykin A. Application of Nanodispersed Schungite as Functional Concrete Admixture. Scientific Israel. Technological Advantages. 2010, vol. 12, no. 3, pp. 40—43.
- Pykin A.A. Svoystva i struktura betona s dobavkoy nanodispersnogo shungita [Properties and Structure of Concrete with Addition of Nanosized Shungite]. Tekhnologiya betonov [Concrete Technologies]. 2011, no. 3, pp. 52—54. (In Russian)
- Khomyakova E.N., Pashayan A.A., Lukuttsova N.P. Issledovanie svoystv tsementnogo kamnya, nanomodifitsirovannogo dobavkami na osnove soley zheleza [Research of the Properties of Cement Stone Nanomodified by the Additive Based on Iron Salts]. Mezhdunarodnyy nauchno-issledovatel’skiy zhurnal [International Research Journal]. 2015, no. 5—2 (36), pp. 111—113. (In Russian)
- Vinnikova O.S., Lukashov S.V. Potentsiometrirovanie otrabotannykh zhelezosoderzhashchikh travil’nykh rastvorov [Potentiometric Titration of Spent Pickling Solutions Containing Iron]. Vestnik Mezhdunarodnoy akademii nauk ekologii i bezopasnosti zhiznedeyatel’nosti [Bulletin of the International Academy of Sciences of Ecology and Life Safety]. 2010, no. 5, pp. 112—116. (In Russian)
- Ovcharenko G.I., Gil’miyarov D.I. Fazovyy sostav avtoklavnykh izvestkovo-zol’nykh materialov [The Phase Composition of Autoclaved Lime-Ash Materials]. Izvestiya vysshikh uchebnykh zavedeniy. Stroitel’stvo [News of Higher Educational Institutions. Construction]. 2013, no. 9 (657), pp. 28—33. (In Russian)
- Tarakanov O.V., Belyakova E.A. Vliyanie tonkodispersnykh aktivnykh dobavok na svoystva napolnennykh tsementnykh kompozitsiy [Influence of Fine Active Additives on the Properties of Filled Cement Compositions]. Rosnauka. Stroitel’stvo [Russian Science. Construction]. 2013, no. 4. Available at: http://www.rusnauka.com/12_KPSN_2013/Stroitelstvo/4_135868.doc.htm. Date of access: 11.11.2015. (In Russian)
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Kashperyuk Aleksandra Aleksandrovna -
Moscow State University of Civil Engineering (MGSU)
student, Department of Soils, Foundation Soils and Foundations; +7 (499) 129-18-72, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Potapov Aleksandr Dmitrievich -
Moscow State University of Civil Engineering (MGSU)
Doctor of Technical Sciences, Professor, Head, Department of Engineering Geology and Geoecology, Moscow State University of Civil Engineering (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation;
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Urban conditions are characterized by geographical and climatic features, geotechnical and hydrogeological conditions. But the main features are architecture, urban planning and engineering infrastructure solutions. This includes roads, water mains, electrical networks, sewage, heating system. Saturation of urban areas by engineering services depends on the size of the city, its population and climatic conditions. Metropoles and cities with long heating season are of particular importance in terms of this issue.The article discusses the need for full-scale investigation of the distribution of temperature field in the soil and underlying sediments during the engineering and environmental surveys in urban environment. In order to study the transfer of heat and moisture in clay soils and to assess its influence on their physical and mechanical properties the authors propose the principles of interaction simulation of the soil and the thermal field. We propose a preliminary methodology for monitoring the temperature and humidity of the soil mass under the influence of heat-conveying communications. Among these communications there are heating, water mains, hot water supply and sewerage.The location of the communications in the near-surface soil mass and the presence of sufficiently high temperature loads from mains are taken into account. To date there is no information on the monitoring of the nature of the distribution of the soils temperature field in urban areas and, accordingly, the spatial variability of the physical and mechanical properties of soils under natural conditions.The reason for it is in short term of geotechnical investigations for specified objects on the stage of project documentation development. Also in the conditions of a city it's almost impossible to place an experimental site with expensive facilities — wells and equipment and provide its safety for a long time (at last 1 year or more).The paper describes the laboratory setup and principles of equipment monitoring systems in field conditions, the basic principles of the experimental work techniques. The theoretical generalization of the results of methodological experiments and conduct large-scale field experiments is a challenge for further research.
DOI: 10.22227/1997-0935.2013.12.68-76
References
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- Korolev V.A., Fadeeva E.A. Sravnitel'nyy analiz termovlagoperenosa v dispersnykh gruntakh raznogo granulometricheskogo sostava [Comparative Analysis of Heat and Moisture Transfer in Disperse Soils of Different Particle Size Distribution]. Inzhenernaya geologiya [Engineering Geology]. 2012, no. 6, pp. 18—31.
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- Kashperyuk A.A., Kashperyuk P.I., Potapov A.D., Potapov I.A Osobennosti temperaturnogo rezhima gruntov v gorode Moskve i ego vliyanie na inzhenerno-geologicheskie svoystva aktivnoy zony osnovaniy sooruzheniy [Features of Soil Temperature in Moscow and its Impact on the Geotechnical Properties of the Core Ground Structures]. Vestnik MGSU [Proceedings of Moscow State University of Civil Engineering]. 2013, no. 3, pp. 88—97.