Antonina Yudina, Yurii Tilinin


Variety of house building technologies, involving the use of masonry materials, precast reinforced-concrete structures, formwork systems and modern construction equipment, contributed to the need to perform expert evaluation of their applicability in various construction conditions. Expert evaluation of house building technologies is based on a set of weighty criteria considering not only costs of resources but consumer appeal of apartment buildings as well.
The expert evaluation method represents a tool for comparison of technologies by means of the system of incomparable criteria such as architectural expression of facades, dwelling convenience, durability, structural strength and seismic resistance of buildings, capital intensity of technologies, labor intensity and costs of construction using the considered house building technologies.


Residential construction, house building technology, labor intensity, capital intensity, number of floors, durability, structural strength, expert evaluation, criterion selection, weighting

Full Text:



Allen, E., Iano, J. (2004). Fundamentals of building construction: Materials and methods. New York: J. Wiley & Sons.

Bazylev, N.I., Gurko, S.P. (2005). Economic theory. Minsk: Ekoperspectiva.

Gaydo, A.N. (2015). Ways of improving technological solutions of construction of pile foundations of residential buildings under conditions of urban development. Zhilishchnoe Stroitel'stvo, 9, pp. 12–15.

Golovina, S.G., Sokol, Yu.V. (2018). To the issue of studying the joint performance of building materials of enclosing structures in the former profitable houses of the historical center in St. Petersburg. Bulletin of Civil Engineers, 3 (68), pp. 112–117. DOI: 10.23968/1999-5571-2018-15-3-112-117.

Gutsykova, S.V. (2011). Expert evaluation method. Theory and practice. Moscow: Institute of Psychology of Russian Academy of Sciences.

Kolchedantsev, L.M., Vasin, A.P., Osipenkova, I.G., Stupakova, O.G. (2016). Cast-in-place concrete. Technological basis. Concreting in winter. Saint Petersburg: Lan.

Likhachev, V.D. (2016). Labor intensity as a criterion to evaluate efficiency of technical and technological solutions. In: Proceedings of the 72nd Scientific Conference of professors, teachers, researchers, engineers and post-graduate students of the Saint Petersburg State University of Architecture and Civil Engineering, part 1 , pp. 108–111.

Mintsaev, M.Sh. (2009). Integrated automation of processes for construction of industrial facilities out of cast-in-place reinforced concrete. DSc Thesis in Engineering. Moscow: Moscow Automobile and Road Construction Institute.

Rybnov, E.I., Egorov, A.N., Hejducki Z., Ghadimian N.G. (2018). Organization and planning of production structures' work at large-scale housing construction. Bulletin of Civil Engineers, 3 (68), pp. 98–102. DOI: 10.23968/1999-5571-2018-15-3-98-102.

Yudina, A.F., Dyachkova, O.N. (2010). Analysis of the versions of design-construction solutions of residential multi-storey buildings (on the example of Saint Petersburg). Bulletin of Civil Engineers, 2 (23), pp. 115–122.

Yudina, A.F. (2012). Advantages of monolithic building and some problems of its perfection. Bulletin of Civil Engineers, 1 (30), pp. 154–156.

Yudina, A.F., Ponomarev, M.Yu. (2016). Application of exposed concrete at erection of monolithic buildings. Architecture and Engineering, 1 (2), pp. 73–88. DOI: 10.23968/2500-0055-2016-1-2-73-88.



  • There are currently no refbacks.

ISSN: 2500-0055