[
Agieieva, G. – Kafiev, K. – Kriveljov, L. (2021) Reconstruction of the first mass series buildings as the principle of the sustainable development of neighbourhoods and residential quarters in cities. Science and Construction, Vol. 27(1), pp. 32-40. https://doi.org/10.33644/scienceandconstruction.v27i1.5 [in Ukrainian].
]Search in Google Scholar
[
Album of technical solutions (2012) Fundamental technical decisions for the thermal reconstruction of the facades of the dwelling houses of the 1960-1995 building – Кyiv: NDIBK, 2012, 48 pp. [in Ukrainian].
]Search in Google Scholar
[
Denisenko, A. (2012) Renovation and preservation of the housing stock through the reconstruction of houses of the first period of industrial housing construction. Bulletin of the Prydniprovska State Academy of Civil Engineering and Architecture, Vol. 1-3 (166-168), pp. 154-165 [in Russian].
]Search in Google Scholar
[
DSTU 9194:2022. Cold-Formed Light Gauge Steel Wall Systems. Requirements for Fabrication and Erection. Kyiv, 2022 [in Ukrainian].
]Search in Google Scholar
[
Dykhovichny Yu. (1970) Design and calculation of residential and public buildings with an increased number of sto-reys. Moscow, 1970 [in Russian].
]Search in Google Scholar
[
European Technical Assessment ETA 13/0312. Kits for KNAUF external wall systems WM111C, WM211C, WM311C, WM411C, WM111G, WM211G, WM311G, WM411G. Available at: https://itec.es/certification/files.aspx?tipus=dite&num=13/0312 (accessed at 14.01.2022).
]Search in Google Scholar
[
Filonenko, O. – Yurin, O. – Kodak, O. (2018) Thermal modernization of the panel buildings external walls. International Journal of Engineering and Technology (UAE), Vol. 7 (3), pp. 116-122. https://doi.org/10.14419/ijet.v7i3.2.14386
]Search in Google Scholar
[
Hryhorovskyi, P. – Osadcha, I. – Jurelionis, A. – Basanskyi, V. – Hryhorovskyi, A. A. (2022) BIM-Based Method for Structural Stability Assessment and Emergency Repairs of Large-Panel Buildings Damaged by Military Actions and Explosions: Evidence from Ukraine. Buildings. 2022; Vol. 12(11), 1817. https://doi.org/10.3390/buildings12111817
]Search in Google Scholar
[
Kumpyak, O. G. – Galyautdinov, Z. R. – Pakhmurin, O. R. – Samsonov, V. S. (2013). Practical experience in restoring the survivability of a ten-storey large-panel residential building after a gas cylinder explosion. Building Structures, Vol. 78 (1), pp.353-358.
]Search in Google Scholar
[
Lotocka N. (2022) In Ukraine, the occupiers destroyed or damaged 116,000 residential buildings. LB.ua. Accessed June 16, 2022. https://lb.ua/economics/2022/06/16/520202_ukraini_okupanti_zruynuvali_abo.html
]Search in Google Scholar
[
Ligęza, W. (2014) Budownictwo wielkopłytowe po latach. Wybrane problemy remontowe. Budownictwo i Architektura. 2014, Vol. 13(3), pp. 15–25 [in Polish]
]Search in Google Scholar
[
Mackiewicz, M. – Krentowski, J.R. – Knyziak, P. – Wardach, M. (2022) Consequences of excessive deformation of structural elements in precast buildings. Engineering Failure Analysis, Vol. 137, 106261, https://doi.org/10.1016/j.engfailanal.2022.106261
]Search in Google Scholar
[
Maklakova, T. et al. (1986) Constructions of civil buildings: textbook for universities. Moscow: Stroyizdat, 1986 [in Russian].
]Search in Google Scholar
[
Malakhova, A.N. – Balakshin, A.S. (2014) Emergency destruction of a panel residence building. Type series 1-115. Vestnik MGSU. 2014. No.11. pp.109-117 [in Russian].
]Search in Google Scholar
[
Malazdrewicz, S. – Ostrowski, K.A. – Sadowski, Ł. (2022) Large Panel System Technology in the Second Half of the 20th Century—Literature Review, Recycling Possibilities and Research Gaps. Buildings, 2022, Vol. 12(11), 1822. https://doi.org/10.3390/buildings12111822
]Search in Google Scholar
[
Malganov, A.I. – Plevkov, V.S. – Polishchuk, A.I. (1990) Restoration and strengthening of the building structures of the emergency and reconstructed buildings. Atlas of schemes and drawings. Tomsk: TSNTI, 1990, 316 pp. [in Russian].
]Search in Google Scholar
[
Pleshkanovska, A. – Biriuk, S. (2020) Outdated housing stock as an object of complex reconstruction programmes and projects (based on the example of Kyiv city). J. Urban Reg. Anal., Vol. 13, pp. 257–280.
]Search in Google Scholar
[
Recommendations for the restoration and strengthening of prefabricated buildings with polymer solutions. TbilZNIIEP. Moscow, Stroyizdat, 1990. - 160 pp. [in Russian].
]Search in Google Scholar
[
Report on research work under contract No. 16-417/2021 Analysis of factors influencing the achievement of minimum energy efficiency requirements of commissioned buildings and development of proposals to improve the methodology for determining the economically feasible level of energy efficiency of buildings, Kharkiv National University of Urban Economy named after O.M. Beketova, 2021 [in Ukrainian].
]Search in Google Scholar
[
Reznik, P. – Almohamad, M. – Tenesesku, V. (2022) Analysis of constructive solutions to existing Kharkiv city buildings of the housing fund on the subject of their performance as a consequence of the influence of combat actions. Collection of scientific works of the Ukrainian State University of Railway Transport. Kharkiv: UkrDUZT, 2022. No. 201. pp. 41-56. https://doi.org/10.18664/1994-7852.201.2022.267755
]Search in Google Scholar
[
Series 1-464A. (1967) Large-panel houses for construction in II and III building-climatic zones. Album V. Factory-made items. Part 3a-D. Multilayer exterior wall panels. Moscow, 1967 [in Russian].
]Search in Google Scholar
[
Series 125. (1970) Large-panel residential buildings for construction in building climate zones II and III. Standard projects 111-125-1, 111-125-2. Part 9. Knots and details. Sections 9-2. Mounting units and details. Moscow, 1970 [in Russian].
]Search in Google Scholar
[
Series 125. (1978) A comprehensive series of standard projects for large-panel residential and public buildings. Part 9. Knots and details. Sections 9-36. Mounting units and details. Moscow, 1978 [in Russian].
]Search in Google Scholar
[
Series 2.130-1. (1975 a) Details of the walls and partitions of residential buildings. No. 15. External load-bearing walls of reinforced concrete three-layer construction for 5 and 9-storey large-panel buildings. Moscow, Central Institute for Standard Design, 1975 [in Russian].
]Search in Google Scholar
[
Series 2.130-1. (1975 b) Details of the walls and partitions of residential buildings. Issue 17. Single-layer exterior walls of 5 and 9 storey large-panel buildings. Moscow, Central Institute for Standard Design, 1975 [in Russian].
]Search in Google Scholar
[
Shereshevsky, I. (1981) Design of Civil Buildings: A textbook. Leningrad: Stroyizdat, 1981 [in Russian].
]Search in Google Scholar
[
Shmukler, V. – Goncharenko, D. – Konstantinov, A. – Zinchenko, V. (2013) Restoration of a large-panel building destroyed as a result of a man-made disaster. Industrial Construction and Engineering Structures. Vol. 2 (2013) pp. 34-39. https://urdisc.com.ua/rl/info/2_13.pdf [in Russian].
]Search in Google Scholar
[
SN 321-65. Guidelines for the design of structures for large-panel residential buildings. Moscow: Publishing House of Literature on Construction, 1966. 164 pp. [in Russian].
]Search in Google Scholar
[
Szulc, J. – Piekarczuk, A. (2022) Diagnostics and technical condition assessment of large-panel residential buildings in Poland. Journal of Building Engineering, Vol. 50, 2022, 104144. https://doi.org/10.1016/j.jobe.2022.104144
]Search in Google Scholar
[
Typical project 1-464A-3. (1963) Five-storey building with 60 apartments. Album I. Moscow, Central Institute for Standard Projects, 1963 [in Russian].
]Search in Google Scholar
[
«Vidnovidim» (RepairHouse), https://sites.google.com/view/programa-vidnovidim-ukr
]Search in Google Scholar