EXISTING PROBLEMS ANALYZIS OF ORGANIZATIONAL AND TECHNOLOGICAL RELIABILITY OF ROOFING SYSTEMS
Keywords:roofing, roof, roof deck, roof «pie», roofing system, innovative technologies of roofing construction, roofing organizational and technological reliability
Purpose. The article aims at analysis of existing approaches towards engineering, construction, reconstruction and major repair of buildings roofing systems and constructions for solving the matters regarding organizational and technological reliability. Methodology. The survey is based on methods of analogy, scientific analysis and synthesis. Findings. The analysis of innovative technologies as well as new construction materials for roofing has been carried out. Problems regarding their organizational and technological reliability have been specified. Relevance of the given problems has been grounded. Correlation between reliability of constructed facility or roofing repair from thoroughly chosen technology and also construction process organization in general was determined. All the specifications influencing roofing organizational and technological reliability have been divided into primary and secondary. New methodic conception including all the constituents of roofing in the whole has been worked out. Ukrainian and European specification documents have been taking into account. Roofing organizational and technological reliability scheme considering the factors that form reliability has been suggested. An urgent need for creation of roofing model taking into consideration the innovative technologies and latest roofing materials for choosing its rational variant has been emerged. It has to meet both customers and specification documents requirements and also desired level of organizational and technological reliability. Originality. For the first time the notion of «organizational and technological reliability» has been applied to roofing. Fundamental investigation of this notion has been suggested. Roofing reliability dependence on all its components as a whole has been analyzed. New approach towards roofing problems solving conception has been developed. Practical value. The survey results may be applied at roofing engineering and construction organizations activity analysis. Investigation results have practical value in roofing with desired reliability engineering.
Bondar V.А., Roschupkina Z.P. Analiz dolgovechnosti i nadezhnosti pokrytiy zdaniy i sooruzheniy [Durability and reliability analysis of roofing the buildings and constructions]. Hirnychyi visnyk – Mining Bulletin, 2014, issue 97, pp. 297-301.
Gusakov A.A. Organizatsionno-tekhnologicheskaya nadezhnost stroitelnogo proizvodstva [Organizational and technological reliability of building production]. Moscow, Stroyizdat Publ., 1974. 256 p.
DBN V.2.6-97 Konstruktsii budynkiv i sporud. Pokryttia budynkiv i sporud [Buildings and houses construction. Roofing of buildings and constructions]. Kyiv, Derzhstandart Ukrainy Publ., 1980. 44 p.
DSTU 2860-94 Nadiinist tekhniky. Terminy ta vyznachennia [Technics Reliability. Terms and Definitions]. Kyiv, Derzhstandart Ukrainy Publ, 1994. 92 p.
Zholobov А. L. Novyy podkhod v proyektirovanii, ustroystve, rekonstruktsii i kapitalnom remonte krovel [New approach in roofing engineering, construction, reconstruction and major repair]. Materialy IV mezhdunarodnoy nauchno-prakticheskoy konferentsii «Perspektivy razvitiya stroitelnogo kompleksa (22.10-26.10.2012)» [Proc. of IVth Int. Sci. and Practical Conf. «Perspectives of Building Sector Development»].Astrakhan, 2012, pp. 34-38.
Krysha. Vikipediya [Roofing. Wikipedia]. Available at: http://ru.wikipedia.org/wiki/крыша (Accessed 23 March 2015).
Meneiliuk O.I. Suchasni tekhnolohii v budivnytstvi [Modern Technologies in Construction]. Кyiv, Osvita Ukrainy Publ., 2011. 534 p.
Pshinko O.M., Radkevych A.V., Salnikova I.V. Analiz suchasnykh pidkhodiv do orhanizatsiino-tekhnolohichnoi nadiinosti transportnykh sporud [Modern approaches analyze to organizational and technological reliability of transport constructions]. Zbirnyk naukovykh prats Donetskoho instytutu zaliznychnoho transportu [Proc. of Donetsk Institute of Railway Transport], 2012, issue 32, pp. 205-211.
Radkevych А.V., Tkach T.V. Orhanizatsiino-tekhnologichni aspekty formuvannia program rezultatyvnosti budivelnykh pidpryiemstv [Organizational and technological aspects of the program of the construction companies]. Vіsnyk Dnіpropetrovskoho natsіonalnoho unіversytetu zalіznichnoho transportu іmenі akademіka V. Lazariana [Bulletin of Dniproperovsk National University named after Academician V. Lazaryan], 2012, issue 42, pp. 234-241.
Savchinskiy B.V. Nekotoryye aspekty nadezhnosti zhelezobetonnykh proletnykh stroyeniy avtodorozhnykh mostov [Some reliability aspects of reinforced concrete girder]. Mosty ta tuneli: teoriia, doslidzhennia, praktyka [Bridges and tunnels: theory, research, practice], 2012, issue 3, pp. 163-166.
Sokova С.D. Raschet nadezhnosti i dolgovecnosti krovel [Reliability and longevity calculation of roofing]. Stroitlnyye materialy i konstruktsii – Building Materials and Constructions, 2010, no. 3, pp. 633-638.
Fareniuk Ye.H., Pavliuk P.O. Problema normatyvnoi bazy pokrivelnykh robit Ukrainy, mozhlyvi shliakhy yikh rishennia [Problem of roofing regulations in Ukraine, possible ways of their solution]. Budivelni sporudy –Building Constrictions, 2014, no. 80, pp. 3-8.
Cash C.G. The relative durability of low-slope roofing. Proc. of the Fourth Int. Symp. on Roofing Technology.Arlington,Massachusetts, 1997, pp. 119-124 p.
EN 1990 (2002) (English): Eurocode – Basis of structural design [Authority: The European Union Per Regulation 305/2011, Directive 98/34/EC, 2004/18/EC]. 116 p. Available at: https://law.resour-ce.org/pub/eur/ibr/en.1990.2002.pdf (Accessed 24 March 2015).
Martins N., Caetano E. Dynamic monitoring of a stadium suspension roof: Wind and temperature influence on modal parameters and structural response. Engineering Structures, 2012, no. 59, pp. 80-94. doi: 10.1016/j.engstruct.2013.10.021.
Pisello A.L., Piselli C., Cotana F. Influence of human behavior on cool roof effect for summer cooling. Building and Environment, 2014, vol. 88, pp. 116-128. doi: 10.1016/j.buildenv.2014.09.025.
How to Cite
Copyright and Licensing
This journal provides open access to all of its content.
As such, copyright for articles published in this journal is retained by the authors, under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0). The CC BY license permits commercial and non-commercial reuse. Such access is associated with increased readership and increased citation of an author's work. For more information on this approach, see the Public Knowledge Project, the Directory of Open Access Journals, or the Budapest Open Access Initiative.
The CC BY 4.0 license allows users to copy, distribute and adapt the work in any way, provided that they properly point to the author. Therefore, the editorial board of the journal does not prevent from placing published materials in third-party repositories. In order to protect manuscripts from misappropriation by unscrupulous authors, reference should be made to the original version of the work.