English
Русский 74-83 p.
The authors of the article broadcast information about the study of the compositional activity of architects of Soviet Russia in the 20s of the XX century. in line with the trend of "constructivism". The study of three-dimensional architectural composition is considered by the authors as the separation of the "indivisible whole" (integrity – the law of composition) and "unchangeable for further im-provement" (it is impossible to make changes without deterioration of the already created, completed composition) artificially created object – organism of universal laws and means. The authors believe that the study of high–class Heritage samples is based on the separation of formal (composite) ele-ments (contrast, plastic, texture, plane – volume, rhythm, modular divisions, construction, engineering materials, walls, floors, ceilings, fasteners, etc.) from an artificially created composite organism. The analysis allows you to develop compositional thinking, taste and teaches you to understand the course and origins of the Master's compositional thought. The study of the formal (compositional) sphere of the Heritage of the classics of modernity and past eras allows you to build the path of the author's work on the project, avoiding mistakes and disappointments.
[1] Korotich A.V. Actual aspects of the development of modern high-rise architecture. Urban planning. 2013. 2. P. 49 – 59. (rus.)
[2] Nikolaev S.V., Magai A.A., Dubynin N.V., Zyryanov V.S. Prospects for the development of the regulatory framework for high–rise construction in Russia. Housing construction. 2016. 12. P. 3 – 6. (rus.)
[3] Loshakov P.I. Modular structures as architectural environment arrangement. Construction Materials and Products. 2022. 5 (1). P. 37 – 53. https://doi.org/10.34031/2618-7183-2022-5-1-38-53
[4] Mirkhasanov R.F., Sadkov V.A., Klyuev S.V., Akhtyamova L.Sh., Sabitov L.S. Universal laws of composition (artificial and natural form) on the example of the V.G. Shukhov tower. Construction Materials and Products. 2022. 5 (5). P. 29 – 41. https://doi.org/10.58224/2618-7183-2022-5-5-29-41
[5] Magai A.A. Architectural and compositional features of high–rise buildings. Academic Bul-letin of UralRSIproekt RAASN. 2015. 4. P. 25 – 30. (rus.)
[6] Travush V.I. 50th anniversary of Ostankino TV tower – reinforced concrete symbol of Mos-cow. Bulletin of SRC Construction. 2018. 1 (16). P. 126 – 132. (rus.)
[7] Dmitrieva M.D. Relevance of Tatlin tower in modern architecture. Science, education and experimental design. abstracts of reports of the international scientific and practical confer-ence, teaching staff, young scientists and students. 2017. P. 242 – 243. (rus.)
[8] Gayduk A.R., Mirkhasanov R.F., Lushpaeva M.I., Sabitov L.S. Compositional analysis: syn-thesis of abstract painting and architecture of the 20s of the XX century. Construction Mate-rials and Products. 2022. 5 (6). P. 64 – 74. DOI: 10.58224/2618-7183-2022-5-6-64-74
[9] Ptichnikova G. A. Formation of the cultural space of the Soviet city of the 1920s-30s (on the example of Stalingrad). Soviet urban planning of the 1920s-1930s: New research and materi-als. M., 2010. P. 156 – 170. (rus.)
[10] Khezhev T.A., Pukharenko Yu.V., Khezhev Kh.A., Klyuev S.V. Fiber Gypsum Con-crete Composites with Using Volcanic Tuff Sawing Waste. ARPN Journal of Engineering and Applied Sciences. 2018. 13 (8). P. 2935 – 2946.
[11] Khezhev T.A., Pukharenko Yu.V., Khezhev Kh.A., Klyuev S.V. Fiber Gypsum Concrete Composites with Using Volcanic Tuff Sawing Waste. ARPN Journal of Engi-neering and Applied Sciences. 2018. 13 (8). P. 2935 – 2946.
[12] Klyuev S.V., Klyuev A.V., Khezhev T.A., Pucharenko Yu.V. Technogenic sands as ef-fective filler for fine-grained fibre concrete. Journal of Physics: Conference Series. 2018. 1118. 012020.
[13] Jasim S.L. Formation of highrise dominants in the structure of the historically formed urban landscape of Baghdad. Contemporary World's Architecture. 2021. 2 (17). P. 187 – 198.
[14] Klyuev S.V., Klyuev A.V., Khezhev T.A., Pucharenko Yu.V. High-Strength Fine-Grained Fiber Concrete with Combined Reinforcement by Fiber. Journal of Engineering and Applied Sciences. 2018. 13 (8 SI). P. 6407 – 6412.
[15] Nazarov Yu.P., Travush V.I. Long-period seismic effects and their influence on the structural strength of high-rise buildings. International Journal for Computational Civil and Structural Engineering. 2018. 14 (4). P. 14 – 26.
[16] Klyuev S.V., Khezhev T.A., Pukharenko Yu.V., Klyuev A.V. The fiber-reinforced concrete constructions experimental research. Materials Science Forum. 2018. 931. P. 598 – 602.
[17] Ptichnikova G., Antyufeev A.Architecture of stalingrad: the image of the hero city by the language of "Stalinist empire style". E3S Web of Conferences. 2018. P. 01046.
[18] Sabitov L., Akhtyamova L., Mayilyan A., Mayilyan L., Yazyev S., Radaykin O. Technologi-cal and construction features of modular reinforced concrete foundation designing for vari-ous high-rise structures. E3S Web of Conferences. 2020. P. 02034.
[19] Mailyan L., Yaziev S., Sabitov L., Konoplev Y., Radaykin O. Stress-strain state of the "combined tower-reinforced concrete foundation-foundation soil" system for highrise struc-tures. In collection: E3S Web of Conferences. Topical Problems of Green Archi-tecture, Civ-il and Environmental Engineering, TPACEE 2019. 2020. P. 02035.
[2] Nikolaev S.V., Magai A.A., Dubynin N.V., Zyryanov V.S. Prospects for the development of the regulatory framework for high–rise construction in Russia. Housing construction. 2016. 12. P. 3 – 6. (rus.)
[3] Loshakov P.I. Modular structures as architectural environment arrangement. Construction Materials and Products. 2022. 5 (1). P. 37 – 53. https://doi.org/10.34031/2618-7183-2022-5-1-38-53
[4] Mirkhasanov R.F., Sadkov V.A., Klyuev S.V., Akhtyamova L.Sh., Sabitov L.S. Universal laws of composition (artificial and natural form) on the example of the V.G. Shukhov tower. Construction Materials and Products. 2022. 5 (5). P. 29 – 41. https://doi.org/10.58224/2618-7183-2022-5-5-29-41
[5] Magai A.A. Architectural and compositional features of high–rise buildings. Academic Bul-letin of UralRSIproekt RAASN. 2015. 4. P. 25 – 30. (rus.)
[6] Travush V.I. 50th anniversary of Ostankino TV tower – reinforced concrete symbol of Mos-cow. Bulletin of SRC Construction. 2018. 1 (16). P. 126 – 132. (rus.)
[7] Dmitrieva M.D. Relevance of Tatlin tower in modern architecture. Science, education and experimental design. abstracts of reports of the international scientific and practical confer-ence, teaching staff, young scientists and students. 2017. P. 242 – 243. (rus.)
[8] Gayduk A.R., Mirkhasanov R.F., Lushpaeva M.I., Sabitov L.S. Compositional analysis: syn-thesis of abstract painting and architecture of the 20s of the XX century. Construction Mate-rials and Products. 2022. 5 (6). P. 64 – 74. DOI: 10.58224/2618-7183-2022-5-6-64-74
[9] Ptichnikova G. A. Formation of the cultural space of the Soviet city of the 1920s-30s (on the example of Stalingrad). Soviet urban planning of the 1920s-1930s: New research and materi-als. M., 2010. P. 156 – 170. (rus.)
[10] Khezhev T.A., Pukharenko Yu.V., Khezhev Kh.A., Klyuev S.V. Fiber Gypsum Con-crete Composites with Using Volcanic Tuff Sawing Waste. ARPN Journal of Engineering and Applied Sciences. 2018. 13 (8). P. 2935 – 2946.
[11] Khezhev T.A., Pukharenko Yu.V., Khezhev Kh.A., Klyuev S.V. Fiber Gypsum Concrete Composites with Using Volcanic Tuff Sawing Waste. ARPN Journal of Engi-neering and Applied Sciences. 2018. 13 (8). P. 2935 – 2946.
[12] Klyuev S.V., Klyuev A.V., Khezhev T.A., Pucharenko Yu.V. Technogenic sands as ef-fective filler for fine-grained fibre concrete. Journal of Physics: Conference Series. 2018. 1118. 012020.
[13] Jasim S.L. Formation of highrise dominants in the structure of the historically formed urban landscape of Baghdad. Contemporary World's Architecture. 2021. 2 (17). P. 187 – 198.
[14] Klyuev S.V., Klyuev A.V., Khezhev T.A., Pucharenko Yu.V. High-Strength Fine-Grained Fiber Concrete with Combined Reinforcement by Fiber. Journal of Engineering and Applied Sciences. 2018. 13 (8 SI). P. 6407 – 6412.
[15] Nazarov Yu.P., Travush V.I. Long-period seismic effects and their influence on the structural strength of high-rise buildings. International Journal for Computational Civil and Structural Engineering. 2018. 14 (4). P. 14 – 26.
[16] Klyuev S.V., Khezhev T.A., Pukharenko Yu.V., Klyuev A.V. The fiber-reinforced concrete constructions experimental research. Materials Science Forum. 2018. 931. P. 598 – 602.
[17] Ptichnikova G., Antyufeev A.Architecture of stalingrad: the image of the hero city by the language of "Stalinist empire style". E3S Web of Conferences. 2018. P. 01046.
[18] Sabitov L., Akhtyamova L., Mayilyan A., Mayilyan L., Yazyev S., Radaykin O. Technologi-cal and construction features of modular reinforced concrete foundation designing for vari-ous high-rise structures. E3S Web of Conferences. 2020. P. 02034.
[19] Mailyan L., Yaziev S., Sabitov L., Konoplev Y., Radaykin O. Stress-strain state of the "combined tower-reinforced concrete foundation-foundation soil" system for highrise struc-tures. In collection: E3S Web of Conferences. Topical Problems of Green Archi-tecture, Civ-il and Environmental Engineering, TPACEE 2019. 2020. P. 02035.
Gayduk A.R., Mirkhasanov R.F., Sabitov L.S., Sadkov V.A., Lushpaeva M.I., Kiyamov I.K. Compositional analysis: the project of the III Communist International Monument (Tatlin Tower). Construction Materials and Products. 2023. 6. (1). P. 74 – 83. https://doi.org/10.58224/2618-7183-2023-6-1-74-83