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English version Russian version



INTERNATIONAL SCIENTIFIC AND EDUCATIONAL ONLINE JOURNAL 
ARCHITECTURE AND MODERN INFORMATION TECHNOLOGIES

3(44) 2018


Article BACKGROUND FOR THE FORMATION OF PNEUMATIC STRUCTURES IN MODERN ARCHITECTURE
Authors K.A. Pshenichnikova, Moscow Institute of Architecture (State Academy), Moscow, Russia
Abstract The article is devoted to the history of the formation of pneumatic structures from the first prototypes to buildings of the XX-XXI century. The purpose of the article is to identify the prerequisites for the emergence and development of pneumatic air shells in the context of modern architecture. It is established that previously seemed impossible ideas of such structures are now embodied in the works of architects and designers. The influence of social, scientific, economic, cultural and technological factors is noted. The article shows that the study of the development of pneumatic air structures makes it possible to predict the direction of their further development in the XXI century. The results can be used for the theory and practice of the formation of architectural objects based on pneumatic structures that are becoming increasingly important in modern domestic and foreign architecture.
Keywords: pneumatic structures, air-support structures, fluoropolymer ETFE, 3D-modeling in architecture
article Article (RUS)
  1. References

  1. Ermolov V.V., Berd U.U., Bubner. E. Pnevmaticheskiye stroitelnyye konstruktsii [Pneumatic building constructions]. Moscow, Stroyizdat, 1983, 439 p.
  2. Lebedev Yu.S. Arkhitektura i bionika [Architecture and Bionics]. Moscow, Stroyizdat, 1977, 221 p.
  3. Orsa Yu.N. Osobennosti arkhitekturnoy kospozitsii pnevmaticheskikh sooruzheniy. [Features of the architectural arrangement of pneumatic structures. (Cand. Dis)]. Moscow, 1983, 152 p.
  4. Otto F., Trostel R. Pnevmaticheskiye stroitelnyye konstruktsii. Konstruirovaniye i raschet sooruzheniy iz trosov. setok i membran [Pneumatic building structures. Design and calculation of structures from cables, nets and membranes]. Moscow, Stroyizdat, 1967, 319 p.
  5. Hensel M., Menges A. Adaptive Pneumatic Shelters. AA London. Diploma Unit 4, 2004, 3 p.
  6. LeCuyer A. ETFE Technology and Design. Graphic design: Esther Mildenberger. Berlin, Birkhauser Verlag AG, 2008, 160 p.
  7. Les Utopies Gonflables. Jean-Paul Jungmann et le groupe Utopia. Beyond books: Science and architecture, 2010, 9 p.
  8. Mallory K. The Architecture of War. Pantheon Books [1st American ed.] edition, 1973, 370 p.
  9. McLean W., Silver P. Air structures. London, Laurence King Publishing Ltd, 2015, 161 p.
  10. Pecina P. Application of tensile membrane structures in architecture. Dissertation Bachelor of Architectural Technology and Construction Management (BATCoM) Via University College, Denmark, 2012, 31 p.
  11. Spatial Agency: Haus-Rucker-Co, Group-Vienna, Austria. Spatial Agency: book, 2016, 4 p.
  12. Valentín Gómez-jáuregui. Controversial Origins of Tensegrity. Proceedings of the International Association for Shell and Spatial Structures (IASS) Symposium, Valencia, 2009, 11 p.

For citation

Pshenichnikova K.A. Background for the Formation of Pneumatic Structures in Modern Architecture. Architecture and Modern Information Technologies, 2018, no. 3(44), pp. 183-200. Available at: http://marhi.ru/eng/AMIT/2018/3kvart18/10_pshenichnikova/index.php