33407 2304-6295 11 26 2014 1-135

RAR RUS 7-17 Peter the Great St. Petersburg Polytechnic University Niyetbay Sayat sayat_90@inbox.ru Peter the Great St. Petersburg Polytechnic University Tleukhanov Daniyar danik_19-91@mail.ru Peter the Great St. Petersburg Polytechnic University Alzhanova Raushan alzhanova03@gmail.com Saint-Peterburg National Research University of Information Technologies, Mechanics and Optics Filippova Darya dsfilippova@mail.ru Peter the Great St. Petersburg Polytechnic University Alzhanov Sultan mr.alzhanov@gmail.com Comparison of initial and calibrated values of pulsed inductive method Determination of thickness of concrete’s protective layer and arrangement of fittingsis made by devices with initial calibration characteristic that causes high error of results of measurements at field inspections of buildings because of complexity of sampling. Determination of these parameters is made with preliminary processing of samples and calibration concerning a fittings class in laboratory conditions. The difference in measurements by one device on different sites appears in result. Definition of a protective layer of concrete by a pulse induction method with the initial calibration characteristic and the calibrated values on fittings classes for determination of size of an error of field tests is carried out. The experimental data showing prospects of calibration of values concerning brand of fittings on construction sites are given. 10.18720/CUBS.26.1 69 civil engineering,technical diagnostics inspection of buildings non-destructive inspection methods concrete structures concrete cover to reinforcement pulse inductive method class of reinforcement https://unistroy.spbstu.ru/article/2014.26.1/ 1_nietbay_26.pdf

RAR RUS 18-32 U-tek Ltd. Raevskiy Vladislav raevski@inbox.ru

80-5 Stepan Razinst., Samara, 443099, Russia

Runways and taxiways repairing and reconstruction with the usage of two components penopolyuretane resin. Transfer of overall runway repair into current repair The possibility of usage of penopolyurethane resin for performing current and overhaul repair works of runways and taxiways of airportsis described. The methodof work during injection of two components penopolyurethane resin in order to recover workability of artificial runways and taxiways coverings is presented in this article. The physical process occurredduring injection of penopolyurethane resin under existing concrete coveringsare described. 10.18720/CUBS.26.2 69 repair of runways and taxiways concrete covering repair injection penopolyurethane resin concrete slab lifting https://unistroy.spbstu.ru/article/2014.26.2/ 2_rayevskiy_26.pdf

RAR RUS 33-48 G-1611-2018 56352359500 0000-0002-5156-7352 Volgograd State Technical University Korniyenko Sergey Valeryevich svkorn2009@yandex.ru

Volgograd, Russian Federation

Complex assessment of energy efficiency and thermal performance for buildings Increase of energy efficiency and thermal performance for buildings is an actual problem of construction and architecture. The solution of this problem is necessary at all stages of life cycle of the building — during the carrying out engineering researches, design, construction, operation, reconstruction, capital repairs, demolition. In this article the complex assessment of energy efficiency and thermal performance for multiroom residential buildings including is executed: visual and tool inspection, thermovision quality control of thermal performance, settlement assessment of thermophysical parameters of building elements. Based on visual and tool inspection of the object used for the general assessment of its thermophysical condition the conclusion is drawn on discrepancy of the specified object to requirements of project and standard documentation. Thermovision quality control of thermal performance of the object allowed to reveal reasonably numerous defects of a heat-insulating enclosure of buildings and to plan ways for their elimination. The settlement assessment of thermophysical parameters of enclosing structures based on numerical simulation of heat transfer process allowed to develop reasonably offers an increase of buildings enclosures thermal performance. Complex application of the above methods allowed defining thermophysical condition of object in general. The received results give the chance to assess damage caused to the customer owing to the works of inadequate quality performed by the contractor and are a basis for development of the project of reconstruction of buildings for the purpose of their reduction in compliance with requirements of project and standard documentation. Results of researches are base for development of methodological bases of design, construction, operation and reconstruction of energy effective buildings. 10.18720/CUBS.26.3 69 visual and tool inspection thermovision quality control numerical simulation temperature anomaly defect https://unistroy.spbstu.ru/article/2014.26.3/ 3_korniyenko_26.pdf

RAR RUS 49-58 University of Novi Sad Jaksic Zeljko alt96@uns.ac.rs

Trg Dositeja Obradovića 6, Novi Sad, Serbia

University of Novi Sad Harmati Norbert harmati@uns.ac.rs

Trg Dositeja Obradovića 6, Novi Sad, Serbia

Thermal bypass–air movement that causes a significant increase in the heat loss The Governments legally binding objective of achieving an 80% reduction in national CO2 emissions and the drive for zero carbon homes and buildings is focusing attention upon building design and procurement. In developing the design for a residential development concerns relating to the subject of “thermal bypass” have had a significant influence upon the project and lead to the development of new quality assurance systems. It should be recognized that the term thermal bypass is being applied to largely unfamiliar, and often unregulated, heat transfer. In this article has treated some principles to eliminate air gaps within and either side of the insulation layer, to preserve airtight construction, and to protect the insulation layer against wind induced air movement. 10.18720/CUBS.26.4 69 thermal bypass air gaps convective loop energy efficiency sealing construction https://unistroy.spbstu.ru/article/2014.26.4/ 4_jaksic_26.pdf

RAR RUS 59-69 University of Novi Sad Maodus Nikola nikolamaodus@uns.ac.rs

Trg Dositeja Obradovića 6, Novi Sad, Serbia

University of Novi Sad Radeka Miroslava mirka@uns.ac.rs

Trg Dositeja Obradovića 6, Novi Sad, Serbia

University of Novi Sad Kocetov Misulic Tatjana tanya@uns.ac.rs

Trg Dositeja Obradovića 6, Novi Sad, Serbia

Energy performance of typical residential buildings in SEEconstruction sector The growing concern about earth climate changes has induced the worldwide ecological awareness and consequently the revival of construction which uses wood and wood based products in the last few decades. The aim of the paper is to promote building structures of wood and to point out its sustainability and energy efficiency in South Eastern Europe construction sector. A few examples of typical multi-layered structural wall systems present in the Balkans region, accompanied with the analysis of the thermal transmittance coefficients "U" and the water vapour diffusivity are given in the paper. The conclusion points out a suitable, reasonable and advisable use of wood in the building sector. 10.18720/CUBS.26.5 69 wood based products energy efficiency energy related parameters U coefficient water vapour diffusivity https://unistroy.spbstu.ru/article/2014.26.5/ 5_maodus_26.pdf

RAR RUS 70-84 G-2929-2018 56227381900 0000-0003-2673-4566 Peter the Great St. Petersburg Polytechnic University Sergeeva (Nemova) Darya Viktorovna darya0690@mail.ru

St. Petersburg, Russian Federation

15730895100 0000-0003-3251-3356 Saint Petersburg State University of Industrial Technologies and Design Gorshkov Alexander Sergeevich alsgor@yandex.ru

St. Petersburg, Russian Federation

O-6995-2019 6508103761 0000-0002-1196-8004 Peter the Great St. Petersburg Polytechnic University Vatin Nikolai Ivanovich vatin@mail.ru

St. Petersburg, Russian Federation

URSA Kashabin Andrey kashabin@uralita.com

168 Leninsky Ave., St. Petersburg, 196191, Russia

Peter the Great St. Petersburg Polytechnic University Tseytin Dmitrii dm.inco@gmail.com 0000-0002-9362-0561 A.F. Mozhaysky's Military-Space Academy Rymkevich Pavel Pavlovich rymkewitch@yandex.ru

St. Petersburg, Russian Federation

Technical and economic assessment on actions for heat insulation of external envelops external walls of apartment building with the double-skin facade Now there are no the approved techniques by calculation of payback periods energy saving actions, in particular, the techniques considering growth of tariffs for energy resources, percent of payments for the credit and discounting of future cash flows. In this article the technique of an assessment of the predicted payback periods of energy saving actions for warming of the protecting designs (external walls) with the device of the double-skin facade and use of the heat-insulating products "URSA GEO" is offered. In the real work the concrete recommendations about application of this technique promoting adoption of the correct design decision are submitted. The example of calculation of simple payback of additional warming of external walls of a multiroom house, and also the payback calculated taking into account payment of percent on the credit, growth of tariffs for thermal energy and discounting of future cash flows is given. The example of calculation is executed in relation to the constructive solution ofadditional warming with the device of the double-skin facade. 10.18720/CUBS.26.6 69 external envelops facades heat-insulation materials losses of thermal energy reconstruction of buildings heat insulation payback period energy saving energy efficiency double-skin facade https://unistroy.spbstu.ru/article/2014.26.6/ 6_nemova_26.pdf

RAR RUS 85-93 University of Sarajevo Hadzalic Emina emina_hadzalic@hotmail.com

71 000, Obala Kulina Bana, 7/II, Sarajevo, Bosnia and Herzegovina

University of Sarajevo Barucija Kasim kbarucija@gmail.com

71 000, Obala Kulina Bana, 7/II, Sarajevo, Bosnia and Herzegovina

Concrete shrinkage effects in composite beams The text analyses stresses in composite beam, as a result of time - dependent concrete slab shrinkage, where in addition to analytical solution of stress distribution, numerical solution is given as well, using structural software SAP2000 v 16. For linear behavior of the headed stud anchors, whose stiffness for varying diameters is determined using separate finite element model, a comparison between numerical and analytical solutions of stress distribution is shown. Shrinkage strain is determined using EC2. For purposes of the finite element model, this strain is converted into equivalent temperature load. 10.18720/CUBS.26.7 69 composite beam concrete slab shrinkage stiffness headed stud anchor finite element method https://unistroy.spbstu.ru/article/2014.26.7/ 7_hadzalic_26.pdf

RAR RUS 94-106 Peter the Great St. Petersburg Polytechnic University Solobay Anna solobayann@mail.ru Peter the Great St. Petersburg Polytechnic University Voronkova Viktoria viktory2106@gmail.com Peter the Great St. Petersburg Polytechnic University Demchenko Viktoria devinifor@mail.ru Peter the Great St. Petersburg Polytechnic University Kudaibergenova Nailya kunail_919@inbox.ru

29 Politechnicheskaya St., St. Petersburg, 195251, Russia

Peter the Great St. Petersburg Polytechnic University Kulzhabayeva Zhazira tulakpaeva91@mail.ru Influence of super-plasticizer on workability concrete mix in thehot earthquake-prone regions When building in a hot climate there is a problem of workability of the concrete mix, affecting the human labor, time and cost of construction. The subject of survey is the effect of additives on the properties of concrete superplasticizer different classes. In tests used superplasticizer KR 501 companies «SanNopca Korea», provided by «Uneedus Group» LLP. The use of this additive has increased the setting time of the concrete mix, improve water resistance, while maintaining the physical properties of concrete within the permissible limits. Confirmed the effectiveness of liquid superplasticizer based on polycarboxylate polymers in the summer to control plasticity (workability) of concrete. This additive has found its application in the construction of residential units in the southern regions of Kazakhstan. 10.18720/CUBS.26.8 69 concrete survey concrete strength workability concrete mix super-plasticizer hot climate earthquake-prone https://unistroy.spbstu.ru/article/2014.26.8/ 8_solobay_26.pdf

RAR RUS 107-114 University Ss Cyril and Methodius Zafirovski Zlatko zafirovski@gf.ukim.edu.mk

blvd. Goce Delcev 9, 1000 Skopje, R. Macedonia

Ss. Cyril and Methodius University in Skopje Krakutovski Zoran krakutovski@gf.ukim.edu.mk

blvd. Goce Delcev 9, 1000 Skopje, Republic of Macedonia

Ss. Cyril and Methodius University in Skopje Gjosevski Goran ggjosevski@gmail.com

blvd. Goce Delcev 9, 1000 Skopje, Republic of Macedonia

Preliminary technical studies forthe connection of the two Pan-European Corridors in the district between Sopotnica and Meseista The purpose of this paper is to promote a solution forthe connection of the two Pan-European Corridors i.e. the Corridor VIII and the Corridor X that go through the territory of Republic of Macedonia. Their single joining point is the city Skopje, and as a result we came to an idea to use their connection at another place. This connection is going to enable better railway traffic and circular motion over the rail in the country along with the uplift of the quality and service of transport in Macedonia. Moreover, we are taking about a single track section with normal width of the track section which connects both Pan-European Corridors in the districtbetween Sopotnica and Meseista. 10.18720/CUBS.26.9 69 construction of railways investment costs Pan-European Corridors Corridor VIII Corridor X connection railway track https://unistroy.spbstu.ru/article/2014.26.9/ 9_zafirovski_26.pdf

RAR RUS 115-126 University of Montenegro Radovanovic Tanja tanjaradovanoviic@gmail.com

Cetinjska br. 2, 81 000, Podgorica, Montenegro

Design of primary school in Podgorica (Montenegro) This paper presents a project developed by student from Faculty of Architecture of the University of Montenegro. The object of design is primary school for 720 students in Podgorica, Montenegro. All areas and facilities designed and constructed according to the norms and standards for the construction of school facilities. Programming and formal possibilities are based on the research component directed toward improving the current architecture of primary education centers in Montenegro. 10.18720/CUBS.26.10 69 architecture space planning primary school energy efficiency design ecological approach https://unistroy.spbstu.ru/article/2014.26.10/ 10_radovanovic_26.pdf

RAR RUS 127-135 Peter the Great St. Petersburg Polytechnic University Antipov Daniil ondatra.07@mail.ru Peter the Great St. Petersburg Polytechnic University Gonyakina Ekaterina katay-syper@mail.ru

29 Politechnicheskaya St., St. Petersburg, 195251, Russia

LLC "IBP Petersburg" Boychev Veselin acikex@mail.ru

9 lit. A, 26 line, St. Petersburg, 199106, Russia

CJSC SCAA "LenSpetsSMU" Komarchev Sergey skomarchev@yandex.ru

2, Bogatyrsky pr., St. Petersburg, 197348, Russia

ERP-systems on Russian building sites This article deals with the possibility of using ERP systems on Russian construction sites, the need for such a system, how to influence the work of the system in the construction process or increase the introduction of ERP-system efficiency of the enterprise. Also in this paper the question of compliance with established standards. It is shown that the ERP-system should be introduced to the Russian construction, if an investor wants to build your object with the required quality and in time. For the ERP-system in Russia is necessary to create a foundation that would be based on monitoring of standards by means of algorithms and information systems by filling out electronic forms. ERP -system provides objective information to make competent management solutions. 10.18720/CUBS.26.11 69 ERP-system control automated system of investor control management optimization https://unistroy.spbstu.ru/article/2014.26.11/ 11_antipov_26.pdf