Russian Journal of Construction Science and Technology

Применение инновационных строительных материалов – актуальный вопрос в современном строительстве. Проведен социологический опрос по задачам исследования. Использование ETFE пленок основано как на возможности реализации практически любых идей дизайнеров и архитекторов в оформлении фасадов и крыш всевозможных сооружений, так и на специфических особенностях данного фторполимера. Представлены характеристики и обоснованы преимущества данного полимерного материала. Инновация в строительстве является новшеством, обеспечивающим качественный рост эффективности процессов возведения или эксплуатации зданий и сооружений. Строительная мембранная технология, основанная на использовании композиционного полимерного материала-пленки ETFE (ETFE – ethylene tetrafluoroethylene или ЭТФЭ – этилентетрафторэтилен, или частично фторированный сополимер этилена и тетрафторэтилена), обладает комплексом преимуществ по сравнению с традиционными технологиями.

Artemenko A.A. (2015) Aktual’nye voprosy innovatsionnogo razvitiya stroitel’stva [Topical issues of innovative development of construction]. Young scientist, № 11 (91), 742-744. – URL: https://moluch.ru/archive/91/19447/ (In Russia).

Kuptsov M.M. (2018) Innovatsii kak osnova konkurentosposobnosti predpriyatiya [Innovations as the basis of enterprise competitiveness] (851 c.). Moscow: Synergia. (In Russia).

Popova A. (2018) Konkurentosposobnost’ innovatsionnoi stroitel’noi produktsii [Competitiveness of innovative construction products] (128 c.). Moscow: LAP Lambert Academic Publishing (In Russia).

Solovei A.A. (2014) Analiz spetsifiki innovatsionnoi deyatel’nosti v stroitel’noi sfere [Analysis of the specifics of innovative activity in the construction industry]. Statistics and economics, №4. – URL: https://cyberleninka.ru/article/n/analiz-spetsifiki-innovatsionnoy-deyatelnosti-v-stroitelnoy-sfere/viewer (In Russia).

Bessonov A.K., Verstina N.G., Kulakov Yu.N. (2019) Innivatsionnyi potentsial stroitel’nykh predpriyatii. Formirovanie i ispol’zovanie v protsesse innovatsionnogo razvitiya. [Innovative potential of construction enterprises. Formation and use in the process of innovative development]. (168 c.). Moscow: Publishing House of the Association of Construction Universities (In Russia).

Kireeva Yu. I. (2010) Sovremennie stroitel’nie materialy i izdeliya [Modern building materials and products] (245 c.). Phoenix (In Russia).

Kochergin S.M., Zhukov A.D. (2007) Sovremennie stroitel’nie materialy. Tehnologii rabot [Modern building materials. Work technologies]. (720 c.) Moscow: Stroyinform (In Russia)/

Hudyakov V.A., Proshin A.P., Kislitsina S.N. (2006) Sovremennie kompozitsionnie stroitel’nie materialy [Modern composite building materials]. (144 c.). Moscow: ABC (In Russia).

Rudnov V.S., Vladimirova E.V., Domanskaya I.K., Gerasimova E.S. (2018) Stroitel’nie materialy i izdeliya [Construction materials and products] (204 c.) Ekaterinburg: Ural State University (In Russia).

Rudnov V.S., Vladimirova E.V., Domanskaya I.K., Gerasimova E.S. (2018) Otsenka kachestva stroitel’nih materialov: osnovnie metodiki laboratornih ispytanii [Assessment of the quality of building materials: basic methods of laboratory testing] (108 c.). Ekaterinburg: Ural State University (In Russia).

Rudnov V.S., Vladimirova E.V., Domanskaya I.K., Gerasimova E.S. (2021) Stroitel’nie materialy i izdeliya [Construction materials and products] (201 c.) Ekaterinburg: Ural State University (In Russia).

Annette, LeCuyer (2008) ETFE: Technology and Design (160 с.). Berlin: Birkhäuser (In English)

Jiri, G. D. (2001) Technology of Fluoropolymers (184 c.). New York : CRC Press (In English)

Lamnatoua Chr, A. Morenoa, D. Chemisanaa (2017) Ethylene tetrafluoroethylene (ETFE) material: Critical issues and applications with emphasis on buildings Renewable and Sustainable Energy Reviews (pp. 2186-2201). – № 82. (In English)

Hu Jianhui, Chena Wujun, Zhaoa Bing, Yang Deqing (2017) Buildings with ETFE foils: A review on material properties, architectural performance and structural behavior. Construction and Building Materials. (pp.411-422) – № 131. (In English)

Zhaoc Zhongwei, Liu Hongbo, Chen Zhihua. (2017) Thermal behavior of large-span reticulated domes covered by ETFE membrane roofs under solar radiationlar radiation. Thin-Walled Structures (pp.1-11). – № 115. (In English)

Maywald Carl, Riesser Florence. Sustainability (2016) The Art of Modern Architecture. Procedia Engineering (pp.238-248). – № 155. (In English)

Monticelli Carol, Zanelli Alessandra. (2020) Material saving and building component efficiency as main eco-design principles for membrane architecture: case - studies of ETFE enclosures. Architectural Engineering and Design Management (pp.264-280). – № 17. (In English)

A. Menéndez, A. Santos, B. Ruiz. (2018) A multifunctional ETFE module for sustainable façade lighting: Design, manufacturing and monitoring. Energy and Buildings (pp.10-21). – № 161. (In English)

Chilton John (2015) Lightweight envelopes: ethylene tetra-fluoro-ethylene foil in architecture. Construction Materia (pp.343-357). – № 166. (In English)