NODAL SOLUTIONS IN STEEL MODULAR BUILDINGS FOR RESETTLEMENT FROM EMERGENCY AND DILAPIDATED HOUSING
Main Article Content
Abstract
In Russia, there is an increasing concern about the need for relocation from old housing that does not meet modern standards of living and is considered to be in emergency or dilapidated condition. The share of such housing continues to grow every year, making it one of the most significant challenges of modern housing policies. To address this issue, it is essential to develop effective strategies for maintaining the technical condition of existing buildings or constructing new ones. One promising approach is the use of steel modular structures, which are versatile, quickly assembled, and disassembled units that can be used for a variety of purposes. This innovative technology has many advantages and is becoming increasingly popular worldwide. The prefabricated and modular construction market in Russia is also growing rapidly, providing a promising avenue for addressing the housing shortage and improving living conditions for citizens. By adopting this approach, the country can create a more sustainable and efficient housing system that meets the needs of its citizens. However, like any other technology, steel modular construction has its weaknesses. One of these is that buildings constructed with a metal frame and malleable nodal joints may not meet the standards for dynamic comfort. The authors propose a potential solution to this issue, which involves the development of a special type of metal bolted nodal joint. They also compare different modeling methods for this joint in rod and plastic formulations. Based on the results of their research, a computational model of a modular building was created using the proposed nodal connection. The model was then tested to ensure that it meets the current standards for dynamic comfort. Further research is needed to improve and develop this approach. Recommendations for future studies in this area are provided.
Article Details
References
Шнейдерман И. М., Гришанов В. И., Гузанова А. К., Ноздрина Н. Н. Проблемы ветхого и аварийного жилья в России // Народонаселение. 2019. Том 22. № 4. С. 18-35.
Сидоренко Е.С., Селезнева Ж.В. Реконструкция зданий и сооружений: основные направления и проблемы // Инновационная наука. 2023. №10-1. С. 30-32
Чепелева К.В., Смирнов Е.А. Внедрение модульных систем в практике жилищного строительства сибирского федерального округа // Экономика строительства. 2023. №4. С. 234-238
Багаутдинова Л.М. Специфика использования модульных блоков для возведения жилого фонда // Вестник науки. 2023. №6 (63). С. 449-453
Бибин А.С. Prefab-технологии в строительстве // Промышленное и гражданское строительство. 2021. №10. С. 44-48.
Kotlyarskaya, I., Sinelnikov, A., Iakovlev, N., Vatin, N., Gravit, M. Structural and technological features of modular multi-storey buildings. A review. AlfaBuild. 2022. 23 Article No 2304.
Тарханова О.В., Аржиловская А.А.. Модульное строительство как перспектива развития инфраструктуры регионов России // Сборник трудов конференции, Тюменский Индустриальный университет. 2020. С. 607-610.
Огородников С.Н. Принципы планировочных решений модульных жилых объектов // Системные технологии. 2022. №1 (42). С. 232-239.
Gatheeshgar P, Poologanathan K, Gunalan S, Shyha I, Sherlock P, Rajanayagam H, Nagaratnam B. Development of affordable steel-framed modular buildings for emergency situations (Covid-19) // Structures. 2021. 31. P. 862–875.
Lacey, Andrew & Chen, Wensu & Hao, Hong & Bi, Kaiming. New interlocking inter-module connection for modular steel buildings: Experimental and numerical studies // Engineering Structures. 2019. 198.
Liew, Jat Yuen Richard & Chua, Yie & Dai, Ziquan. Steel concrete composite systems for modular construction of high-rise buildings // Structures. 2019. 21.
Широков Вячеслав Сергеевич. Конструктивные особенности модульных зданий // Вестник евразийской науки. 2022. Том 14. №3.
Sukhi V. Sendanayake , David P. Thambiratnam, Nimal Perera, Tommy Chan, Sanam Aghdamy. Seismic mitigation of steel modular building structures through innovative inter-modular connections // Heliyon. 2019. 5.
Deng E.-F., Zong L., Ding Y., Dai X.-M., Lou., Chen Y. Monotonic and cyclic response of bolted connections with welded cover plate for modular steel construction // Engineering Structures. 2018. V. 167. P. 407–419.
Рыбакова Ангелина Олеговна. Анализ особенностей проектирования на основе применения модульных элементов максимальной готовности // Строительство: наука и образование. 2021. №2. С. 65-77
Cisse, M., Kosterev, D.A., Vasileva, I.L., Nemova, D.V. Design of Modular Structures and Use of Prefabricated Sanitary Modules // A Review. 2021. 16(1). Article No 1602.
Курманова, Е.Е. Модульные здания: преимущества и недостатки / Е.Е. Курманова, В.Д. Таратута // Вестник науки. 2020. Т. 3. № 6. С. 158–160.
Liew, J.Y.R., Chua, Y.S., Dai, Z. Steel concrete composite systems for modular construction of high-rise buildings // Structures. 2019. 21. P. 135–149.
Tachkov, M.A., Shcherbatyuk, P.A., Kirik, E.S., Gravit, M.V., Kotlyarskaya (Vasileva), I.L. Design solutions for residential multi-storey steel modular building // Construction of Unique Buildings and Structures. 2022. 102(3). P. 50.
Navaratnam, S., Satheeskumar, A., Zhang, G., Nguyen, K., Venkatesan, S., Poologanathan, K. The challenges confronting the growth of sustainable prefabricated building construction in Australia: Construction industry views // Journal of Building Engineering. 2022. 48.
Abdelmageed, S., Zayed, T. A study of literature in modular integrated construction - Critical review and future directions // Journal of Cleaner Production. 2020. 277. Article No 124044.
Liu, W., Zhang, H., Wang, Q., Hua, T., Xue, H. A Review and Scientometric Analysis of Global Research on Prefabricated Buildings. Advances in Civil Engineering. 2021. V. 2021.
Kamali, M., Hewage, K., Sadiq, R. Conventional versus modular construction methods: A comparative cradle-to-gate LCA for residential buildings. Energy and Buildings. 2019. 204. Article No 109479.
Luo, Yu & Cheng, Dongwei & Yu, Hang. (2019). Reshaping Dormitory by Modular Steel Structure // IOP Conference Series: Materials Science and Engineering. 690. Article No 012016.
Chua, Y.S., Pang, S.D., Liew, J.Y.R., Dai, Z. Robustness of inter-module connections and steel modular buildings under column loss scenarios. Journal of Building Engineering. 2022. 47. Article No 103888.
Lee, S.S., Park, K.S., Jung, J.S., Lee, K.S. Evaluation of the structural performance of a novel methodology for connecting modular units using straight and cross-shaped connector plates in modular buildings. Applied Sciences (Switzerland). 2020. 10(22). P. 1–18.