Bionic architecture

Further information: Modern Architecture

Bionic architecture is a contemporary movement that studies the physiological, behavioural, and structural adaptions of biological organisms as a source of inspiration for designing and constructing expressive buildings.[1] These structures are designed to be self-sufficient, being able to structurally modify themselves in response to the fluctuating internal and external forces such as changes in weather and temperature.[2]

Although this style of architecture has existed since the early 18th century period, the movement only began to mature in the early 21st century, following society's growing concerns over climate change and global warming.[3] These influences led to bionic architecture being used to draw society away from its anthropocentric environment, by creating landscapes that allow for the harmonious relationship between nature and society.[3] This is achieved through having an in-depth understanding of the complex interactions between form, material, and structure[4] in order to ensure that the building's design supports a more sustainable environment.[5] As a result, architects will rely upon the use of high-tech, artificial materials and techniques in order to conserve energy and materials,[6] lower the consumption of construction[7] and increase the practicality and reliability of their building structures.[5]

  1. ^ Wan-Ting, Chiu; Shang-Chia, Chou (2009). "Discussion on theories of bionic design" (PDF). International Association of Societies of Design Research, Energy Conversion and Management. 63 (1): 3625–3643.
  2. ^ Yuan, Yanping; Yu, Xiaoping; Yang, Xiaojiao; Xiao, Yimin; Xiang, Bo; Wang, Yi (2017-07-01). "Bionic building energy efficiency and bionic green architecture: A review". Renewable and Sustainable Energy Reviews. 74: 771–787. doi:10.1016/j.rser.2017.03.004. ISSN 1364-0321.
  3. ^ a b Vorobyeva, O I (2018-12-14). "Bionic architecture: back to the origins and a step forward". IOP Conference Series: Materials Science and Engineering. 451: 012145. doi:10.1088/1757-899x/451/1/012145. ISSN 1757-899X.
  4. ^ Zakcharchuk, Anzhela (2012). "Bionics in architecture". Challenges of Modern Technology. 3 (1): 50–53. S2CID 93736300.
  5. ^ a b Chen, Ling Ling (2012). "The Application of Bionics Techniques in the Designing of Building Material Skin". Applied Mechanics and Materials. 174–177: 1977–1980. Bibcode:2012AMM...174.1977C. doi:10.4028/www.scientific.net/amm.174-177.1977. ISSN 1662-7482. S2CID 110396017.
  6. ^ Mayatsykaya, Irina; Yazyev, Batyr; Yazyeva, Svetlana; Kulinich, Polina (2017). "Building constructions: architecture and nature". MATEC Web of Conferences. 106: 1–9.
  7. ^ Negrotti, Massimo (2012). The reality of the artificial: Nature, technology and naturoids. Germany: Springer Publishing. ISBN 978-3-642-29679-6.