International Journal of Computer Science & Network Security

국제컴퓨터통신보호논문지학회 (International Journal of Computer Science & Network Security)
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Results Of Mathematical Modeling Of Organizational And Technological Solutions Of Effective Use Of Available Resource Of Modern Roofs

  • Arutiunian, Iryna (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Mishuk, Katerina (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Dankevych, Natalia (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Yukhymenko, Artem (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Anin, Victor (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Poltavets, Maryna (Department Of Industrial And Civil Construction, Zaporizhzhia National University) ;
  • Sharapova, Tetiana (Department of General Education Disciplines, Zaporizhzhia National University)
  • 투고 : 2021.01.05
  • 발행 : 2021.01.30
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초록

Relative to the outer surface of the mastic coating, the reliability of the available waterproofing resource is determined by the ability to stabilize the structural characteristics in difficult climatic conditions. Organic components of mastic as a result of solar radiation, elevated temperatures and their alternating change, atmospheric oxidants, especially in industrial areas, have a tendency to self-polymerization and loss of low molecular weight components. This is the gradual loss of deformability and the transition to brittleness with its tendency to crack as the reasons for the gradual transition from normal to emergency operating condition.The presented mechanism of functioning of the coating surface indicates the expediency of increasing its components, able to stabilize the structure and prevent changes in deformability.Durability, hydrophobicity, water displacement, water absorption are accepted as estimating indicators. The main dependences of the influence of the lost additional components of mastic on the operational properties of the formed coating characterize the ability to provide successful resistance to environmental influences and longer stability. As a result, mastic acquires additional service life.

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참고문헌

  1. I.A. Arutiunian. Management of flow processes in organizational-technological-economic systems of the enterprises of construction branch for the purpose of increase of their competitiveness in the conditions of the unstable market, Ways to increase the efficiency of construction in the formation of market relations, No 39, 2019, pp. 71-78.
  2. I.A. Arutiunian. Organization and management of the construction complex on the basis of logistic modeling conditions, ZDIA, 2013, pp.263.
  3. I.Arutiunian, D. Saikov. The place of building term reserve in concept of organizational processes optimization for building production of contracting companies, Proceedings of the 1st International Scientific Conference "Eastern European Conference of Management and Economics", Ljubljana, Slovenia: Ljubljana School of Business, 2019, pp.159-161.
  4. A.V.Radkevych, I.A.Arutiunian, N.O. Dankevych. Analysis of existing methods and models in substantiation of organizational and technological decisions of object construction. Bridges and tunnels: theory, research, practice, No 11, 2017, pp. 74-79.
  5. I. Pavlov Project management and optimisation solutions under uncertainty and risk, Zaporizhzhia, Ukraine, ZSEA. 2008
  6. A. Berkuta, V. Osynska, O. Halinskyi, I. Vakhovych. Organisational and economic aspects of foreign experience of self-regulation in construction, Building Production, 52, 2010, pp. 3-8.
  7. N.O. Dankevich. Probabilistic and statistical principle of systems engineering as a tool for reliability of management decisions, Ways to increase the efficiency of construction in the formation of market relations. Kyiv, No 43, 2020, pp. 67 -73.
  8. M. Pyvovarov, E.Hyzhnyak. Organisation of capital construction: Shortcomings and ways to optimistic expenses, State and Regions. Series: Economics and Entrepreneurship, 5, 2014, pp.94-97.
  9. A. Martysh. The methods of improving of organizational and technological reliability of development and implementation of schedules, Journal of Lviv National Agrarian University. Series: Architecture and Agricultural Building, 16, 2015, pp.109-115.
  10. M. Iasechko, N. Sachaniuk-Kavets'ka, V. Kostrytsia, V. Nikitchenko, S. Iasechko (2020). The results of simulation of the process of occurrence of damages to the semiconductor elements under the influence of multi-frequency signals of short duration. Journal of Critical Reviews, 7 (13), pp.109-112.
  11. M. Iasechko, V. Larin, D.Maksiuta, S. Bazilo, I. Sharapa (2020). The Method Of Determining The Probability Of Affection Of The Semiconductor Elements Under The Influence Of The Multifrequency Space-Time Signals. Journal of Critical Reviews, 7 (9), pp.569-571.
  12. M. Iasechko, M. Kolmykov, V. Larin, S.Bazilo, H. Lyashenko, P. Kravchenko, N. Polianova and I. Sharapa. Criteria for performing breakthroughs in the holes of radio electronic means under the influence of electromagnetic radiation, ARPN Journal of Engineering and Applied Sciences, 15(12), 2020, pp. 1380-1384.
  13. O. Sotnikov, M. Iasechko, V. Larin, O. Ochkurenko, and D.Maksiuta. The model of a medium for creation of electric hermetic screens of the radio electronic means, IJATCSE. 8(2), 2019, pp. 300-304. doi:10.30534/IJATCSE/2019/32822019.
  14. M. Iasechko, O. Tymochko, Y. Shapran, I. Trofymenko, D. Maksiuta, and Y. Sytnyk. Loss definition of charged particles in the discharge gap of the opening of the box-screens during the formation of a highly conductive channel, IJATCSE. 8(1.3), 2019, pp. 1-9. doi: 10.30534/ijatcse/2019/0181.32019.
  15. M. Iasechko, V. Larin, O. Ochkurenko, S. Salkutsan, L. Mikhailova, and O. Kozak. Formalized Model Descriptions Of Modified Solid-State Plasma-Like Materials To Protect Radio-Electronic Means From The Effects Of Electromagnetic Radiation, IJATCSE. 8(3), 2019, pp. 393-398. doi: 10.30534/ijatcse/2019/09832019.
  16. M. Iasechko, V. Larin, O. Ochkurenko, A. Trystan, T.Voichenko, A. Trofymenko, and O. Sharabaiko. Determining the function of splitting the charged particles of the strongly ionized air environment in the openings of the case-screens of radioelectronic means, IJATCSE. 8(1.3), 2019, pp. 19-23. doi: 10.30534/ijatcse/2019/0481.32019.
  17. M.Iasechko, Y. Gnusov, I. Manzhai, O. Uhrovetskyi, V.Manoylo, A. Iesipov,O. Zaitsev, M. Volk, and O. Vovk. Determination of requirements for the protection of radio-electronicequipment from the terroristic influence by electromagnetic radiation, IJETER, 7(12), 2019, pp. 772 - 777. doi: 10.30534/ijeter/2019/077122019.
  18. O. Turinskyi, M. Iasechko, V. Larin, T. Prokopenko, O. Kolmohorov, O. Salash, V. Tarshyn and Yu. Dziubenko. Determination of requirements for the protection of radio-electronicequipment from the terroristic influence by electromagnetic radiation, IJETER, 8(4), 2020, pp. 1333 - 1334. doi: 10.30534/ijeter/2020/64842020.
  19. S. Piskunov, M.Iasechko, N. Minko, Yu. Dolomakin, O. Palagin, M. Musorina. Taking Into Account The Correlated Errors Of Measurements When Estimating Parameters Of Object Trajectory At Mechanical Movement, IJETER, 8(9), 2020, pp. 5603 - 5606. doi: 10.30534/ijeter/2020/112829020.