Reliable and adequateengineering surveys for construction: the rule of two D

Vestnik MGSU 1/2014
  • Rakitina Natal'ya Nikolaevna - Mosgorgeotrest geologist, Geologic Supervi- sion Services, Mosgorgeotrest, 11 Leningradskiy Prospekt, Moscow, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • 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; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 90-97

In the article the current state of quality supply of engineering surveys for construction is discussed. The main criteria for improving the design quality of buildings and structures for industrial, civil and other purposes is the reliability and adequacy of the results of engineering-geological surveys. The authors show the examples of inadequate study of engineering-geological conditions in the design of structures that led to emergency situations. Consideration of the reasons of accidents in structures showed that they are caused by lack of research conducted, the underestimation of the complexity of geological conditions. In the process of conducting geotechnical investigations the works were focused directly in the enclosure of a designed building, and the features of geological and hydrogeological conditions of the off-site were much more complex. In the process of construction during the sinking of the pit activation suffusion processes occurred, which led to an accident. Underestimation of the use of these geological funds in this example shows that even in the presence of fund materials, which are currently almost not increased, errors may occur due to the notorious savings for research. The requirements to ensuring the reliability and adequacy of engineering-geological surveys, which the authors call "The Rule of two D" (in Russian — Reliability and Adequacy), lie in the existing legal acts. The practice of fulfilling requirements to a large extend shows that the desire to save money at the stage of design and exploration works results in additional costs for additional design, recovery from accidents and works on a new project. The authors critically evaluated the development of engineering and geotechnical engineering instead of geological survey, which is not methodologically and theoretically substantiated and leads to the excluding from engineering surveys the consideration of the off-site geotechnical conditions directly below the designed structure. The authors give the recommendations for improving the examination quality of the results of surveys and recommendations on obligatory increase of geological funds.

DOI: 10.22227/1997-0935.2014.1.90-97

References
  1. Osipov V.I., Medvedev O.P., editors. Moskva. Geologiya i gorod [Moscow. Geology and the City]. Moscow, Moskovskie uchebniki i kartolitografiya Publ., 1997, 400 p.
  2. Platov N.A., Potapov A.D., Lavrova N.A., Potapov I.A., Kalashnikov M.A. Inzhenernogeologicheskie izyskaniya v slozhnykh usloviyakh [Geotechnical Investigations in Complicated Conditions]. Moscow, MGSU Publ, 2011, 130 p.
  3. Bryukhan' A.F., Bryukhan' F.F., Potapov A.D. Inzhenerno-ekologicheskie izyskaniya dlya stroitel'stva TES [Engineering and Ecological Studies for the Construction of Thermal Power Plants]. Moscow, ASV Publ., 2008, 193 p.
  4. Potapov A.D. Geotekhnika, est' li povod dlya diskussii [Geotechnics, is There a Reason for Debate]. Inzhenernaya geologiya [Engineering Geology]. 2009, no. 11, pp. 15—19.
  5. Kashperyuk P.I., Potapov A.D. Predmet geotekhniki — osnovaniya sooruzheniy?! [Is the Base of Structures the Subject of Geotechnics?!]. Inzhenernaya geologiya [Engineering Geology]. 2010, no. 1, pp. 12—15.
  6. Kalashnikov M.A., Kashperyuk P.I., Potapov I.A., Khomenko V.P., Potapov A.D. K voprosu o neobkhodimosti modernizatsii normativnykh dokumentov po inzhenerno-geologicheskim izyskaniyam v rayonakh rasprostraneniya karstovykh i suffozionnykh protsessov [On the Question of the Need of Normative Documents Modernization on Engineering and Geological Surveys in the Areas of Karst and Suffusion Processes]. Inzhenernye izyskaniya [Engineering Surveys]. 2010, no. 10, pp. 8—10.
  7. Ziangirov R.S., Potapov A.D. Eshche raz o pravil'nom ponimanii terminov «geotekhnika» i «inzhenerno-geotekhnicheskie izyskaniya» [Once More on the Correct Definition of the Terms "Geotechnics" and "Engineering and Geotechnical Surveys]. Inzhenernye izyskaniya [Engineering Surveys]. 2012, no. 9, pp. 9—12.

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Operative control of production quality of construction industry enterprises

Vestnik MGSU 8/2015
  • Lugovaya Valeriya Petrovna - Moscow State University of Civil Engineering (National Research University) (MGSU) Candidate of Technical Sciences, Associate Professor, Department of Economy and Management in Construction, Moscow State University of Civil Engineering (National Research University) (MGSU), 26 Yaroslavskoe shosse, Moscow, 129337, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Abdukadyrova Khalida Abdurakhmetovna - Samarkand State Architectural and Civil Engineering Institute (SamSACEI) Candidate of Economical Sciences, Associate Professor, Department of Economy in Construction, Samarkand State Architectural and Civil Engineering Institute (SamSACEI), 70 Lolazor str., Samarkand, 140140, Republic of Uzbekistan; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Suyunov Abdumadzhid Suyunovich - Samarkand State Architectural and Civil Engineering Institute (SamSACEI) Candidate of Technical Sciences, Associate Professor, Department of Economy in Construction, Samarkand State Architectural and Civil Engineering Institute (SamSACEI), 70 Lolazor str., Samarkand, 140140, Republic of Uzbekistan; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 161-170

Increase of construction objects’ quality is a longstanding problem in the construction complex. It had been treated from different sides. Because of the world economic crisis many countries suppose special measures reducing the financing of social industrial housing without reducing its volumes. The level of consumer appeal is constantly growing, the growth speed depends on technological development and the degree of its results implementation by the organizations of the construction industry. That’s why we can say, that the housing quality is not a static value, it is changing in the historical retrospective. In the basis of the changes in the requirements to housing quality lie consumer preferences and financial possibilities of the users. The list of requirements to the housing quality to large extend determines the supply and demand on the housing market. The authors analyzed the operative control of production quality in factory production of industrial housing. The methods of forming the indicators of operative quality control on the technological operations of production lines are suggested.

DOI: 10.22227/1997-0935.2015.8.161-170

References
  1. Larionov A.N., Ivanova Yu.V. Ekologicheskoe zhilishchnoe stroitel’stvo: problemy i perspektivy razvitiya [Ecological Housing Construction: Problems and Development Prospects]. ACADEMIA. Arkhitektura i stroitel’stvo [ACADEMIA. Architecture and Construction]. 2009, no. 1, pp. 57—61. (In Russian)
  2. Nezhnikova E.V. Konkretno-istoricheskiy aspekt issledovaniya problemy obespecheniya kachestva ob”ektov zhilishchnogo stroitel’stva [Concrete-Historical Aspect of Investigating the Problem of Providing the Quality of Housing Construction Objects]. Ekonomika i predprinimatel’stvo [Economy and Business]. 2015, no. 3, part 2, pp. 713—717. (In Russian)
  3. Borg L., Song H.-S. Quality Change and Implications for Productivity Development: Housing Construction in Sweden 1990—2010. Journal of Construction Engineering and Management. January 2015, vol. 141, no. 1, Article number 05014014. Available at: http://ascelibrary.org/doi/abs/10.1061/%28ASCE%29CO.1943-7862.0000928/. Date of access: 15.03 2015.). DOI: http://dx.doi.org/10.1061/(ASCE)CO.1943-7862.0000928.
  4. Nuuter T., Lill I., Tupenaite L. Comparison of Housing Market Sustainability in European Countries Based on Multiple Criteria Assessment. Land Use Policy. January 01, 2015, vol. 42, pp. 642—651. DOI: http://dx.doi.org/10.1016/j.landusepol.2014.09.022.
  5. Heravi G., Jafari A. Cost of Quality Evaluation in Mass-Housing Projects in Developing Countries. Journal of Construction Engineering and Management. 1 May 2014, vol. 140, no. 5. Article number 04014004. Available at: http://www.researchgate.net/publication/275183032_Cost_of_Quality_Evaluation_in_Mass-Housing_Projects_in_Developing_Countries). DOI: http://dx.doi.org/10.1061/(ASCE)CO.1943-7862.0000837.
  6. Manzo L.C. On Uncertain Ground: Being at Home in the Context of Public Housing Redevelopment. International Journal of Housing Policy. 2 October 2014, vol. 14, no. 4, pp. 389—410. DOI: http://dx.doi.org/.1080/14616718.2014.947125.
  7. Agapkin V.M., Chernyak A.V., Chernyak V.Z., editors. Zhil’e: kompleksnyy vzglyad [Housing. A Complex View]. Moscow, A.V.Ch. Publ., 2001, 976 p. (In Russian)
  8. Karimov A.G. Mirovoy finansovo-ekonomicheskiy krizis, puti i mery po ego preodoleniyu v usloviyakh Uzbekistana [The World Financial and Economical Crisis, Ways and Methods Recovery in the Conditions of Uzbekistan]. Tashkent, Uzbekistan Publ., 2009, 118 p. (In Russian)
  9. Ju S.R., Lee L., Jeon S.-Y. The Typologies of Block and Unit Plan in Malaysian Apartments — Focused on Middle Cost Houses Supplied by the Private Sector. Journal of Asian Architecture and Building Engineering. 2014, vol. 13, no. 2, pp. 397—404.
  10. Williams S., Bourland D.L. Greener Homes, Greener Cities: Expanding Affordable Housing and Strengthening Cities through Sustainable Residential Development. Growing Greener Cities: Urban Sustainability in the Twenty-First Century. Ed. E.L. Birch, S.M. Wachter. Philadelphia, University of Pennsylvania Press, 2008, pp. 106—123.
  11. Mirsaeedie L. Application of Industrialized Building Systems (IBS) in Rurall Settlements Towards Sustainability. World Applied Sciences Journal. 2012, vol. 16, no. 5, pp. 729—733.
  12. Lukmanova I.G., Nezhnikova E.V., Aksenova A.A. Sozdanie sistemy menedzhmenta kachestva, okhrany zdorov’ya, bezopasnosti i ekologii v stroitel’noy otrasli [Creating the System of Quality Management, Heakth Protection, Safety and Ecology in the Construction Branch]. Moscow, MGSU Publ., 2014, 136 p. (In Russian)
  13. Papel’nyuk O.V. Mekhanizm organizatsii upravleniya protsessami vnedreniya innovatsionnoy produktsii na stroitel’nom predpriyatii [Management Mechanism of the Processes of Innovativve Production Implementaation on a Construction Enterprise]. Fundamental’nye issledovaniya [Fundamental Research]. 2014, no. 3, part 3, pp. 560—564. (In Russian)
  14. Suyunov A.Yu. Modernizatsiya sistem upravleniya kachestvom produktsii v stroitel’nom komplekse Uzbekistana [Modernization of the Management Systems of the Production Quality in Construction Complex of Uzbekistan]. Tashkent, Fanva tekhnologiya Publ., 2011, 130 p. (In Russian)
  15. Suyunov A.S., Buriev H. Teoreticheskie i prakticheskie aspekty razvitiya sistemy upravleniya kachestvom produktsii [Theoretical and Practical Aspects of the Development of the Production Quality Management System]. Gosudarstvennoe i munitsinal’noe upravlenie: teoriya, istoriya, praktika : materialy III Mezhdunarodnoy ochno-zaochnoy nauchno-prakticheskoy konferentsii [State and Municipal Management: Theory, History, Practice : Materials of the 3rd International Part-time Science and Practice Conference]. April 20, 2012. Izhevsk, 2012. (In Russian)
  16. Suyunov A.S. Metodika kolichestvennoy otsenki pokazateley kachestva raboty tekhnologicheskikh liniy zavodov stroitel’noy industrii [Methods of Quantitative Evaluation of Quality Indicators of Technological Lines Operation in Construction Enterprises]. Ekonomicheskiy vestnik Uzbekistana [Economical Proceedings of Uzbekistan]. 2011, no. 2, pp. 84—86. (In Russian)
  17. Papel’nyuk O.V. Metodika otsenki effektivnosti vnedreniya innovatsionnykh produktov v stroitel’nykh organizatsiyakh [Methods of Evaluating the Efficiency of Innovative Products Implementation in Construction Organizations]. Nauchnoe obozrenie [Scientific Review]. 2012, no. 5, pp. 481—485. (In Russian)
  18. Suyunov A.S. Metodika ranzhirovaniya edinichnykh pokazateley kachestva produktsii predpriyatiy stroyindustrii [Ranking Techniques of Unique Production Quality Indexes of Construction Enterprises]. Ekonomicheskiy vestnik Uzbekistana [Economical Proceedings of Uzbekistan]. 2011, no. 3, pp. 98—99. (In Russian)
  19. Lugovaya V.P., Abdukadyrova Kh.A., Suyunov A.S., Suyunov B.A. Problemy pov’sheniya kachestva produktsii predpriyatiy stroyindustriii [Problems of Raising the Production Quality of Construction Enterprises]. Nauchnoe obozrenie [Scientific Review]. 2015, no. 6, pp. 183—187. (In Russian)
  20. Silka D.N. Ekonomicheskie interesy kak pobuditel’nye motivy predprinimatel’skoy deyatel’nosti [Economical Interests as Operative Motives for Business Activity]. Privolzhskiy nauchnyy zhurnal [Privolzhsky Scientific Journal]. 2013, no. 4, pp. 158—162. (In Russian)
  21. Silka D.N., Dolotov M.M. Opredelenie tendentsiy razvitiya stroitel’nogo predpriyatiya [Defining the Tendencies of Construction Enterprise Development]. Regional’naya ekonomika: teoriya i praktika [Regional Economy: Theory and Practice]. 2011, no. 16, pp. 53—57. (In Russian)

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ESTIMATION OF SPORTS-TECHNICAL READINESS OF STUDENTS OF METHODICAL BRANCH «FOOTBALL» MSUCE

Vestnik MGSU 4/2012
  • Shamonin Andrey Valentinovich - Moscow State University of Civil Engineering (MSUCE) candidate of pedagogical sciences, associate professor, associate professor of chair of physical training and sports, Moscow State University of Civil Engineering (MSUCE), 26, Jaroslavskoe shosse, Moscow, 129337, Russia; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 231 - 234

Increase of sports-technical skill in sports occurs on the basis of last achievements of the theory and physical training and sports practice. Development of football isn't possible without search and introduction in training process of optimum pedagogical models of perfection of physical and technical readiness of football players. Such pedagogical models should be applied, as in groups of initial preparation, so at the subsequent grade levels, including in student's football. Modern training process (pedagogical model), should be under construction on objective indicators of physical, technical and special readiness (so-called feedback). However, the estimation of sports-technical readiness at sports schools on football is reduced only to testing of speed, jumps, juggling, dribbling and a shoot for goal. The same criteria are applied and in student's football. Unfortunately, the given control exercises not in a condition to the full to reflect level of physical and technical readiness of the football player. For more objective estimation of special readiness it is necessary to use the test tasks revealing a level of development of coordination abilities of game structure game and competitive activity (game in football). It will allow trainers to have fuller picture of readiness of the football player, in respect of its professional (football) skills. As a result coach have possibility to trace level of a condition of the various parties of sports readiness (physical, technical and coordination) student's youth engaged in football at each stage of long-term preparation.

DOI: 10.22227/1997-0935.2012.4.231 - 234

References
  1. Matveev L.P. Teoriya i metodika fizicheskoy kultury [Theory and a physical training technique]. Moscow; Physical culture and sports, 1991. 543 p.
  2. Averyanov I.V. Metodika sovershenstvovaniya kinesteticheskikh koordinatsionnykh sposobnostey futbolistov 10-11 let [Technique of perfection coordination abilities of football players of 10-11 years]. Tyumen, 2008. 26 p.
  3. Godik M.A. Fizicheskaya podgotovka futbolistov [Physical preparation of football player]. Moscow: Terra-sports, Olympia The Press, 2006. 272 p.
  4. Golomazov S.V. Футбол. Futbol [Football]. Moscow: ТВТ The Battalion, 2006. 80 p.
  5. Portnov JU.M Sportivnye igry. [Sports games]. Moscow: Academy Publis., 2004. 400 p.
  6. Vitkovski Z. Koordinatsionye sposobnosti futbolistov: diagostika, struktura,ontogenez [Coordination abilities of young football players: diagnostics, structure, ontogenesis]. Moscow, 2003. 232 p.
  7. Friha Mohammed Habib Razvitie koordinatsii dvizheniy i prostranstvennoy oreirntatsii futbolistov 11-13 let [Development of coordination of movements and spatial orientation of young football players of 11-13 years]. St.-Petersburg, 1998. 21 p.

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RELEVANT OBJECTIVES OF ASSURANCE OF RELIABILITY OF FACADE SYSTEMS SERVING THERMAL INSULATION AND FINISHING PURPOSES

Vestnik MGSU 12/2012
  • Yavorskiy Andrey Andreevich - Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU) Candidate of Technical Sciences, Professor, Department of Building Technology; +7 (831) 430-17-74, Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU), 65 Il'inskaya St., Nizhniy Novgorod, 603950, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Kiselev Sergey Aleksandrovich - Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU) Senior Lecturer, Department of Building Technology; +7 (831) 430-17-74, Nizhniy Novgorod State University of Architecture and Civil Engineering (NNGASU), 65 Il'inskaya St., Nizhniy Novgorod, 603950, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 78 - 84

The authors consider up-to-date methods of implementation of requirements stipulated by Federal Law no. 261-FZ that encompasses reduction of heat losses through installation of progressive heat-insulation systems, cement plaster system (CPS), and ventilated facades (VF). Unresolved problems of their efficient application caused by the absence of the all-Russian regulatory documents capable of controlling the processes of their installation and maintenance, as well as the projection of their behaviour, are also considered in the article.
The authors argue that professional skills of designers and construction workers responsible for the design and installation of façade systems influence the quality and reliability of design and construction works.
Unavailability of unified solutions or regulations serves as the objective reason for the unavailability of the respective database; therefore, there is an urgent need to perform a set of researches to have the unified database compiled.
The authors use the example of thermal insulation cement plaster systems designated for facades as results of researches into the quantitative analysis of safety systems. Collected and systematized data that cover defects that have proven to be reasons for failures, as well as potential methods of their prevention are also studied. Data on pilot studies of major factors of influence onto reliability of glutinous adhesion of CPS to the base of a wall are provided.

DOI: 10.22227/1997-0935.2012.12.78 - 84

References
  1. Skorokhodova N.Yu., Aleksandriya M.G. Rynok naruzhnykh sistem teploizolyatsii fasadov [Market of External Systems of Thermal Insulation of Facades]. Stroyprofil’ [Building Profile]. 2011, no. 8(94), pp. 38—40.
  2. Meneylyuk A.I., Dorofeev V.S., Lukashenko L.E., Moskalenko V.I., Petrovskiy A.F., Sokha V.G. Sovremennye fasadnye sistemy [Modern Fa?ade Systems]. Kiev, Osvita Ukrainy Publ., 2008, 340 p.
  3. Fux V. Thermal Simulation of Ventilated PV-facades. Loughborough, Volker Fux, 2006, 249 p.
  4. Babkov V.V., Kolesnik G.S., Dolgodvorov V.A., Ponomarenko G.T. O nadezhnosti i dolgovechnosti navesnykh fasadnykh sistem [On Reliability and Durability of Add-on Facade Systems]. Stroitel’nye materialy [Construction Materials]. 2007, no. 7, pp. 24—26.
  5. Alekhin S.V. Navesnye fasadnye sistemy. Problemy, s kotorymi my stalkivaemsya [Add-on Facade Systems. Problems That We Face]. Stroyprofil’ [Building Profile]. 2007, no. 5(59), pp. 62—63.
  6. Skorokhodova N.Yu., Aleksandriya M.G. Rossiyskiy rynok fasadnykh sistem teploizolyatsii: istoriya i perspektivy [The Russian Market of Thermal Insulation Facade Systems: History and Prospects]. Stroyprofil’ [Building Profile]. 2010, no. 6(84), pp. 37—39.
  7. GOST R 51901.5—2005. Menedzhment riska. Rukovodstvo po primeneniyu metodov analiza nadezhnosti. [State Standard of Russia 51901.5—2005. Risk Management. Guide for Application of Methods of Reliability Analysis].
  8. Yavorskiy A.A., Kiselev S.A. Obespechenie kachestva teploizolyatsionno-otdelochnykh fasadnykh sistem monolitnykh ob”ektov [Quality Assurance of Thermal Insulation and Finishing Facade Systems of Site-cast Facilities]. Zhilishchnoe stroitel’stvo [Residential Housing Construction]. 2009, no.11, pp. 32—33.

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Compliance with the increased demands on the curing of hardening concrete in the process of transport facilities construction

Vestnik MGSU 10/2013
  • Solov'yanchik Aleksandr Romanovich - JSC «Scientific Research Institute of Transport Construction» (JSC CNIIS) Doctor of Technical Sciences, Professor, Chief Research Scientist, JSC «Scientific Research Institute of Transport Construction» (JSC CNIIS), 1, Kol’skaya st., Moscow, 129329, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Ginzburg Aleksandr Vladimirovich - Scientific Production Association «Cosmos» (LLK «NPO «KOSMOS») Candidate of Technical Sciences, Vice-President for Regional Development, Scientific Production Association «Cosmos» (LLK «NPO «KOSMOS»), 38-25, Shosse Entuziastov, Moscow, 111123, Russian Federation; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .
  • Pulyaev Ivan Sergeevich - Moscow State University of Civil Engineering (MGSU) Candidate of Technical Sciences, associate Professor, Department of construction materials, 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 .

Pages 156-165

Recently the requirements to the high quality of works for critical groups of buildings are more rigid in Russia. This also concerns the transport structures, which play the key role, such as bridges, tunnels, overpasses and other similar facilities. Particularly high requirements for these structures are: reliability, frost resistance, water resistance, crack resistance and durability. In this article the main principles of providing high consumer properties of these objects are highlighted. Modern achievements in concrete researches are used, which are based on scientific studies performed in JSC CNIIS.The main problem in the process of concrete curing is not only in thermostressed state, which depends on the temperature and on the features of structure formation related to the changes in temperature regime of hardening concrete. The service properties of concrete are also influenced by different kinds of thermal stresses, occurring during concrete hardening: submicrostresses, microstresses and macrostresses. A special role in the theory of concrete hardening is played by the so-called own (or residual) thermal stress, which increases or decreases fracture of constructions. With the help of the accounting for these types of thermal stresses, the author shows how to increase crack resistance of concrete constructions without use of extra means of protection from temperature cracks. Furthermore, the author vividly shows, how to consider the magnitude of the temperature drops properly, which occur in concrete and lead to the formation of residual thermal stresses. The research of thermal stresses helps to reduce the cost of the device for additional thermal insulation of concrete, and to achieve high consumer properties of a construction. Positive results from the performed work were used in the construction of a number of transport tunnels in the city of Moscow, which led to the acceleration of their construction and reduced the cost of providing perfect quality of performed works.

DOI: 10.22227/1997-0935.2013.10.156-165

References
  1. Luk'yanov V.S., Denisov I.I. Raschet termouprugikh deformatsiy massivnykh betonnykh opor mostov dlya razrabotki mer po povysheniyu ikh treshchinostoykosti [Thermoelastic Deformation Analysis of Concrete Plate Piers for the Methods Development for Increasing their Crack Resistance]. Sbornik trudov TsNIIS [Collected works of the Central Research Institute of Transport Construction]. Moscow, TsNIIS Publ., 1970, no. 36, pp. 4—43.
  2. Luk'yanov V.S., Solov'yanchik A.R. Fizicheskie osnovy prognozirovaniya sobstvennogo termonapryazhennogo sostoyaniya betonnykh i zhelezobetonnykh konstruktsiy [Physical Basis of Predicting the Own Termostressed State of Concrete and Reinforced Concrete Structures]. Sbornik trudov TsNIIS [Collected works of the Central Research Institute of Transport Construction]. Moscow, TsNIIS Publ., 1972, no. 75, pp. 36—42.
  3. Sychev M.M. Tverdenie vyazhushchikh veshchestv [The Hardening of the Binders]. Leningrad, Stroyizdat Publ., 1974, 80 p.
  4. Sychev M.M. Tverdenie tsementov [Hardening of the Cements]. Leningrad, LTI imeni Lensoveta Publ., 1981, 88 p.
  5. Schoppel K., Plannerer M. Springenschmid R. Determination of Restraint Stresses of Material Properties during Hydration of Concrete with the Temperature-stress Testing Machine. Proceedings of the International RILEM Symposium. Munich, 1994, no. 25, pp. 153—160.
  6. Solovyanchik A.R., Krylov B.A., Malinsky E.N. Inherent Thermal Stress Distributions in Concrete Structures and Method for their Control. Thermal Cracking in Concrete at Early Ages. Proceedings of the International RILEM Symposium. Munich, 1994, no. 25, pp. 369—376.
  7. Thielen G., Hintzen W. Investigation of Concrete Behavior under Restraint with a Temperature-stress Test Machine. Proceedings of the International RILEM Symposium. Munich, 1994, no. 25, pp. 142—152.
  8. Antonov E.A. Tekhnologicheskaya osobennost' kachestva — real'naya sistema organizatsii stroitel'stva sooruzheniy s garantirovannoy ekspluatatsionnoy nadezhnost'yu [Technological Feature of the Quality — a Real Construction Organizational System with the Guaranteed Servicability]. Sbornik trudov TsNIIS [Collected works of the Central Research Institute of Transport Construction]. Moscow, TsNIIS Publ., 2003, no. 217, pp. 222—226.
  9. Solov'yanchik A.R., Sychev A.P., Shifrin S.A. Opyt provedeniya rabot po vyyavleniyu i ustraneniyu defektov i treshchin pri stroitel'stve Gagarinskogo i Volokolamskogo tonneley v g. Moskve [An Experience in Localizing and Fixing the Defects and Cracks in the process of Constructing Gagarinskiy and Volokolamskiy Tonnels in Moscow]. Sbornik trudov TsNIIS [Collected works of the Central Research Institute of Transport Construction]. Moscow, TsNIIS Publ., 2002, no. 209, pp. 6—18.
  10. Shifrin S.A. Uchet neritmichnosti tekhnologicheskikh protsessov pri vybore i obosnovanii rezhimov betonirovaniya raznomassivnykh konstruktsiy transportnykh sooruzheniy [Accounting for the Unsteadiness of Technological Processes in the process of Choosing and Rationalizing Concrete Pouring Regimes of Transport Facilities Constructions]. Sbornik trudov TsNIIS [Collected works of the Central Research Institute of Transport Construction]. Moscow, TsNIIS Publ., 2003, no. 217, pp. 206—216.

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Problems of the coordination of responsibility for maintenance of fire safety Buildings in the conditions of self-regulation

Vestnik MGSU 1/2012
  • Astafiev Sergey Aleksandrovich - Baikal National University of Economics and Low Cand. Econ. Sci., Associate Professor, Doctoral candidate, Associate Professor of Economy and Management of Investments and the Real estate Department +7-(3952)-24-28-04, +7(3952) 24-10-57, Baikal National University of Economics and Low, of. 805-3, Lenin st., Irkutsk, 664003; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 113 - 118

In article problems of maintenance of fire safety of buildings in the conditions of transition of control functions behind quality of civil work to the self-regulation organizations are considered. Recommendations about overcoming of arising problems are given.

DOI: 10.22227/1997-0935.2012.1.113 - 118

References
  1. Brushlinskij N.N, Sokolov S.V. O statistike pozharov i pozharnyh riskah [About statistics of fires and fire risks] Pozharovzrihvobezopasnostj [Fire and explosion Safety], 2011, vol. 20, ¹ 4, Pp. 41—44.
  2. Mirovaja pozharnaja statistika. Otchet ¹ 13 [World fire statistics. The report 13]. National committees CTIF of Russia, Germany, USA, 2008, P. 33.
  3. Pozhary i pozharnaja bezopasnost' v 2009 g. [Fires and fire safety in 2009: the statistical collection], under general edition N. P. Kopylov's, VNIIPO, 2010.
  4. Tehnicheskij reglament o trebovanijah pozharnoj bezopasnosti : Feder. zakon Ros. Federacii ot 22 ijulja 2008 g. ¹ 123-FZ : prinjat Gos. Dumoj 4 ijulja 2008 g. : odobr. Sovetom Federacii Feder. Sobr. Ros. Federacii 11 ijulja 2008 g. [The technical rules about requirements of fire safety: federal law of Russian Federations from July, 22nd, 2008 123-FZ: it is accepted by the State Duma on July, 4th, 2008: It is approved by Council of Federation of Federal Assembly Russian Federation on July, 11th, 2008]. FGU VNIIPO, 2008, 157 p.
  5. Mirovaja pozharnaja statistika. Otchet ¹ 10 [World fire statistics. The report 10]. National committees CTIF of Russia, Germany, USA, 2005, P. 23.
  6. Kholthevnikov V.V., Samoshin D.A., Belosohov I.R, Istratov R.N., Kudrin I.S., Parfenenko A.P. Paradoksy normirovanija obespechenija bezopasnosti ljudej pri jevakuacii iz zdanij i puti ih ustranenija [Paradoxes of normalization of a safety of people at evacuation from buildings and a way of their elimination]. Pozharovzrihvobezopasnostj [Fire and explosion Safety] 2011, vol. 20, ¹ 3, P. 43.

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Calculation of accumulated depreciation Pending construction of buildings and Constructions

Vestnik MGSU 1/2012
  • Shirokov Alexey Igorevich - Tula State University, LTD "Boniface" graduate student Urban Construction and Architectural tour, Director +7-920-744-95-46, Tula State University, LTD "Boniface", ; This e-mail address is being protected from spambots. You need JavaScript enabled to view it .

Pages 149 - 152

In this article the author examines the influence of wear on the ONS to the quality and investment attractiveness, and gives recommendations on how to estimate the accumulated depreciation. A formula for calculating the market value of the ONS taking into account accumulated depreciation.

DOI: 10.22227/1997-0935.2012.1.149 - 152

References
  1. Ocenka rynochnoj stoimosti nedvizhimosti [Valuation of property], Ed. V.I. Rutgayzera, Moscow, 1998, 384 p.
  2. Tarasevich E.I. Ocenka nedvizhimosti [Evaluation of real estate]. St Petersburg, 1998, 422.
  3. Friedman D., Ordway N. Analiz i ocenka prinosjashhej dohod nedvizhimosti [Analysis and assessment of income real estate]. Per. from English. Moscow, 1995, 480 p.
  4. Henry S. Harrison Ocenka nedvizhimosti [Real Estate Appraisal], Moscow, 1994, 231 p.
  5. Fomin S.E. Metodicheskoe rukovodstvo po tehnicheskoj jekspertize [Toolkit for technical expertise]. St Petersburg, GTP., 1994, 15 p.
  6. Fomin S.E. Metod ocenki iznosa i ostatochnogo sroka jekspluatacii stroenija [Method to assess the wear and remaining life of the structure]. St Petersburg, GTP, 1994, 43 p.
  7. Pravila ocenki fizicheskogo iznosa zhilyh zdanij VSN 53-86 (r) [Rules for assessing physical deterioration of residential buildings VSN 53-86 (p)]. Moscow, 1988, 72.
  8. Polozhenie po vedeniju buhgalterskogo ucheta i buhgalterskoj otchetnosti v RF : utv. prikazom Minfina Rossii ot 29.07.98 g., ? 34p i vvedeno v dejstvie s 1.01.1999 g. [Position on accounting and bookkeeping Reporting in the Russian Federation. Approved by order of the Ministry of Finance of Russia of 29.07.98 g, ¹ 34p and introduced with effect from 1.1.1999].

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ANALYSIS OF THE CONCEPT OF "GREEN" CONSTRUCTION AS A VEHICLE TO ENSURE THE ENVIRONMENTAL SAFETY OF CONSTRUCTION ACTIVITIES

Vestnik MGSU 12/2012
  • Benuzh Andrey Aleksandrovich - Moscow State University of Civil Engineering (MGSU) engineer, Department of Construction of Thermal and Nuclear Power Plants, 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 .
  • Kolchigin Mikhail Aleksandrovich - Moscow State University of Civil Engineering (MGSU) assistant lecturer, Department of Construction of Thermal and Nuclear Power Plants, 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 .

Pages 161 - 165

The authors demonstrate that the number of buildings in the world exceeds one billion according to the statistical data; their potential negative impact on the environment can be disastrous; moreover, the main cause of the ever-growing demand for buildings consists in the constant growth of the world population that makes the global environmental situation even more complicated.
As a main conception, the authors focus on the concept of sustainable development. They consider that the core idea of this concept is that the present-day generation should do everything in their power to preserve the natural environment and its resources for the future generations. The authors mention that back in the middle of the 20th century academician V.I. Vernadsky formulated the concept of the noosphere closely linked to the notion of sustainable development.
According to the authors, "green" construction can be considered as a vehicle for sustainable development of territories that accommodate construction sites. The authors define "green" construction as a comprehensive system of knowledge structured on the basis of design and construction standards. "Green" buildings demonstrate their high construction quality along with minimal costs and maximal comfort. Although a "green" technology is a new and not the simplest way of development, it has proven its incredible efficiency.
The major achievement of the authors consists in the classification of principles, approaches and available technologies that can be applied or are applied in the "green" construction to ensure the environmental safety of construction activities. The authors have also selected environmental, economic and social benefits of "green" construction and provided their recommendations concerning the implementation of "green" technologies in Russia.

DOI: 10.22227/1997-0935.2012.12.161 - 165

References
  1. Guarnieri Timothy J. The Real Cost of Sustainable Development. AACE International Transactions, 2008, pp. 1—7.
  2. Telichenko V.I., Potapov A.D., Slesarev M.Yu., Shcherbina E.V. Ekologicheskaya bezopasnost’ stroitel’stva [Environmental Safety of Construction]. Moscow, Arkhitektura-S Publ., 2009, 311 p.
  3. Telichenko V.I. Ot ekologicheskogo i «zelenogo» stroitel’stva — k ekologicheskoy bezopasnosti stroitel’stva [From Ecological and “Green” Construction to Environmental Safety of Construction]. Promyshlennoe i grazhdanskoe stroitel’stvo [Industrial and Civil Engineering] 2011, no 2, pp. 47—51.
  4. Lockwood C. Building the Green Way. Harvard Business Publishing, 2006, pp. 129—135.
  5. Amanjeet Singh, Matt Syal, Sue C. Grady, Sinem Korkmaz. Effects of Green Buildings on Employee Health and Productivity, Am J Public Health, 2010, pp. 1665—1668.
  6. Ya. Roderick, David McEwan, Craig Wheatley, Carlos Alonso. A Comparative Study of Building Energy Performance. Building simulation, 2010, pp. 1167—1176.
  7. Alexia Nalewaik, Valerie Venters. Costs and Benefi ts of Green Building. AACE International Transactions. 2008, pp. 248—256.

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