ÌÀÐÕÈ
ËÈ×ÍÛÉ ÊÀÁÈÍÅÒ ÑÒÓÄÅÍÒÀ
ÏÐÎÅÊÒÍÛÅ ÃÐÓÏÏÛ III ÊÓÐÑÀ 2024/2025 ó÷. ã.
ÊÎÍÔÅÐÅÍÖÈÈ 2023-2024
Âûáîðû çàâåäóþùèõ êàôåäðàìè. Êîíêóðñ ÏÏÑ
2024 - ÃÎÄ ÑÅÌÜÈ
ÂÌÅÑÒÅ ÏÐÎÒÈÂ ÊÎÐÐÓÏÖÈÈ
ÔÀÊÓËÜÒÅÒ ÏÎÂÛØÅÍÈß ÊÂÀËÈÔÈÊÀÖÈÈ
ÍÀÖÈÎÍÀËÜÍÛÉ ÏÐÎÅÊÒ "Íàóêà è Óíèâåðñèòåòû"
ÑÒÀƨРÌèíîáðíàóêè Ðîññèè
ÇÀÙÈÒÀ ÏÐÀÂ ÍÅÑÎÂÅÐØÅÍÍÎËÅÒÍÈÕ Â ÑÅÒÈ ÈÍÒÅÐÍÅÒ


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ÌÅÆÄÓÍÀÐÎÄÍÛÉ ÝËÅÊÒÐÎÍÍÛÉ ÑÅÒÅÂÎÉ ÍÀÓ×ÍÎ-ÎÁÐÀÇÎÂÀÒÅËÜÍÛÉ ÆÓÐÍÀË
"ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES"
(ÀÐÕÈÒÅÊÒÓÐÀ È ÑÎÂÐÅÌÅÍÍÛÅ ÈÍÔÎÐÌÀÖÈÎÍÍÛÅ ÒÅÕÍÎËÎÃÈÈ)

1(50) 2020

Íàçâàíèå ñòàòüè

ÑÎÂÐÅÌÅÍÍÛÉ ÎÏÛÒ ÑÒÐÎÈÒÅËÜÑÒÂÀ ÌÍÎÃÎÊÂÀÐÒÈÐÍÛÕ ÄÅÐÅÂßÍÍÛÕ ÄÎÌΠ ÇÀÐÓÁÅÆÍÛÕ ÑÒÐÀÍÀÕ

Àâòîðû

Ä.À. Äåìåíòüåâ
Ìîñêîâñêèé àðõèòåêòóðíûé èíñòèòóò (ãîñóäàðñòâåííàÿ àêàäåìèÿ), Ìîñêâà, Ðîññèÿ

Àííîòàöèÿ

Ñòàòüÿ ïîñâÿùåíà ñîâðåìåííîìó îïûòó ïðîåêòèðîâàíèÿ è ñòðîèòåëüñòâà ìíîãîêâàðòèðíûõ äåðåâÿííûõ äîìîâ. Ïðîâåäåí àíàëèç õàðàêòåðíûõ ïðèìåðîâ ìíîãîêâàðòèðíûõ äåðåâÿííûõ çäàíèé, âîçâåäåííûõ çà ðóáåæîì. Óêàçàíû îñíîâíûå ïðè÷èíû ïîâûøåíèÿ èíòåðåñà ê ñòðîèòåëüñòâó ìíîãîêâàðòèðíûõ äåðåâÿííûõ äîìîâ. Âûäåëåíû îñíîâíûå àðõèòåêòóðíûå àñïåêòû ïðîåêòèðîâàíèÿ çäàíèé íîâîãî òèïà. Ñôîðìóëèðîâàíû äàëüíåéøèå íàïðàâëåíèÿ èññëåäîâàíèÿ.

Êëþ÷åâûå ñëîâà

äåðåâÿííîå æèëüå, ìíîãîêâàðòèðíûé äîì, ìíîãîýòàæíûé äåðåâÿííûé äîì

Ïîëíûé òåêñò ñòàòüè Ïîëíûé òåêñò ñòàòüè
Ñïèñîê öèòèðóåìîé ëèòåðàòóðû

  1. Colin D. The Prefabricated Home. – London: Reaktion Books Ltd, 2005. – 223 p.
  2. De Wolf C., Fivet C. Can timber lower the environmental impact of tall buildings? // Structures and Architecture - Bridging the Gap and Crossing Borders / editor Paulo J.S. Cruz. – London: Taylor&Francis Group. Tay. – 2019. – pp. 1140-1153.
  3. Gauzin-Müller D. Sustainable Architecture and Urbanism: Concepts, Technologies, Examples / engl. transl.: Kate Purver. – Basel; Boston; Berlin: Birkhäuser, 2002. – 255 p.
  4. Vander Goot J. Architecture and the Forest Aesthetic: A New Look at Design and Resilient. – New York: Taylor&Francis: Routledge, 2018. – 276 p.
  5. Jari Heikkilä D. Tech. Design of large-scale wooden facades // PRO 8: 1st International RILEM Symposium on Timber Engineering; editor Lars Boström. Swedish National Testing and Research Institute. – Stockholm: RILEM Publications, 1999. – pp. 411-419.
  6. Harald Haarman. Modern Finland. – North Carolina: McFarland&Company, Inc., Publishers, – 2016. – 243 p.
  7. Marcelo F.S.F. de Moura, Dourado N. Wood Fracture Characterization. – New York: Taylor&Francis Group, 2018, 136 p.
  8. Green M., Taggart J. Tall Wood Buildings: Design, Construction and Performance / editor Ria Stein. – Berlin: Production Katja Jaeger; – Basel: Birkhäuser Verlag GmbH, 2017. – 176 p.
  9. Emmitt S., Gorse Ch.A. Barry's Advanced Construction of Buildings. Third edition. – New York: John Wiley&Sons, Ltd. – 2014. – 584 p.
  10. Ðîâíîâà Å. Ðåçóëüòàò – â ïðîöåññå, ïðîöåññ - â ðåçóëüòàòå // ARCHI.RU. – 2015. – URL: https://archi.ru/projects/world/9039/centr-innovacionnogo-proektirovaniya-iz-dereva (äàòà îáðàùåíèÿ 10.03.2019).
  11. Green M.C. Tall Wood. The Case for Tall Wood Buildings // Creative Commons CC-Attribution Non-Commercial Share Alike. – 2012. – 240 p. – URL: https://cwc.ca/wp-content/uploads/publications-Tall-Wood.pdf?utm_medium=website&utm_source=archdaily.com (äàòà îáðàùåíèÿ 21.05.2019).
  12. Breneman S., Timmers M., Richardson D. Tall Wood Buildings in the 2021 IBC Up to 18 Stories of Mass Timber // American Wood Council. – 2019. – 13 p. – URL: https://www.awc.org/pdf/education/des/AWC-DES607A-TallWood2021IBC-190619-color.pdf

Äëÿ öèòèðîâàíèÿ

Äåìåíòüåâ Ä.À. Ñîâðåìåííûé îïûò ñòðîèòåëüñòâà ìíîãîêâàðòèðíûõ äåðåâÿííûõ äîìîâ â çàðóáåæíûõ ñòðàíàõ // Architecture and Modern Information Technologies. – 2020. – ¹1(50). – Ñ. 95–108. – URL: https://marhi.ru/AMIT/2020/1kvart20/PDF/06_dementiev.pdf DOI: 10.24411/1998-4839-2020-15006


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