Geonics (geomimetics) and search for optimal solutions in building materials science

Introduction. Methodological approaches and validation of the emergence of a new transdisciplinary area -geonics, which is considered as the art of applying knowledge of the inorganic world, are presented.

Materials and methods. The concept of technogenic metasomatism as a stage in the evolution of building materials, characterized by the adaptation of the composite to changing conditions is formulated. The Law of affinity of structures, which consists in the selection of raw materials for a composite with similar physical and mechanical characteristics, is described.

Results. The examples of non-traditional raw materials use in the areas of construction materials science (intelligent composites, restoration mixtures) and architecture (the building of the Belarusian Potash Company in Belarus, the 'Reflection of the mineral’ building in Japan, the design concept of the monument to the Kursk magnetic anomaly) are presented.

Discussion and conclusions. It is proved that the development of a transdisciplinary approach to geonics will improve the comfort of human stay in the environment.

1. Lesovik V.S. Geonika (geomimetika) kak transdisciplinarnoe napravlenie issledovanij [Geonics (geomimetics) as a transdisciplinary area of research]. Higher education in Russia, 2014: 77-83.

2. Knjazeva E.L. Transdisciplinarnye strategii issledovanij [Transdisciplinary research strategies]. Bulletin of Tomsk State Pedagogical University, 2011; 10: 193-201. (In Russian)

3. Dimitryuk YU.S., SHnejder E.M. Primenenie arhitekturnoj bioniki pri renovacii i rekonstrukcii stroi-tel'nyh ob”ektov [Application of architectural bionics in the renovation and reconstruction of building objects]. Nauchnyj vestnik gosudarstvennogo avtonomnogo obrazovatel’nogo uchrezhdeniya vysshego profession-al’nogo obrazovaniya «Nyvinnomysskij gosudarstvennyj gumanitarno-tekhnicheskij institut», 2020; 1: 5-6. (In Russian)

4. Muzalevskaya YU.E Metod hudozhestvenno-go proektirovaniya na osnove zakonov bioniki [Method of artistic design based on the laws of bionics]. Izvestiya vysshih uchebnyh zavedenij. Tekhnologiya legkoj promyshlennosti, 2018; 41(3): 79-83. (In Russian)

5. Pavlova V.A. Prirodoekvivalentnaja arhitektura v sovremennyh tvorcheskih koncepcijah [Preradoviceva architecture in the modern creative concepts]. Architecture and Modern Information Technologies, 2019, 1(46): 340-355. (In Russian)

6. Yanping Yuan, Xiaoping Yu, Xiaojiao Yang, Yimin Xiao, Bo Xiang, Yi Wang Bionic building energy efficiency and bionic green architecture. A review, Renewable and Sustainable Energy Reviews, 2017; 74: 771-787, ISSN 1364-0321, https://doi.org/10.1016/j.rser.2017.03.004.

7. Mayatskaya I., Eremin V. Bionics and the choice of rational structural form. E3S Web of Conferences, 2019, vol 110, 01042, https://doi:10.1051/e3s-conf/20191001042.

8. Lesovik V.S., Per'kova M.V., Babaev V.B. Arhitekturnaja geonika kak mezhdisciplinarnoe napravlenie v arhitekturnoj nauke i praktike [Architectural geonics as interdisciplinary direction in architectural science and practice]. Vestnik BGTU im. V.G. Shukhov, 2015; 6: 74-79. (In Russian)

9. Pershina I.L. Arhitekturnaya geonika: novye pod-hody k arhitekturnomu poisku komfortnoj sredy obi-taniya [Architectural geonics: new approaches to the architectural search for a comfortable living environment]. Science, Education and Experimental Design at the Moscow Architectural Institute, 2018: 430-431. (In Russian)

10. Elistratkin M.Yu., Shapiro A.E., Milkina A.S., Lesovik G.A., Ageeva M.S. Geonika. Geommimetika kak osnovopolagayushchee napravlenie dlya razviti-ya stroitel'noj industrii [Geonics. Geommimetics as a fundamental direction for the development of the construction industry]. Science-intensive technologies and innovations, 2019: 125-129.

11. Elistratkin M.Yu., Glagolev E.S., Shapiro A.E. Geonika. geomimetika i additivnye tekhnologii [Ge-onics. geomimetics and additive technologies]. Science-intensive technologies and innovations, 2019: 121-124. (In Russian)

12. Kazlitina O.V., Martynova K.Yu., Adonin S.V., Lazarev P.I., Motorykin D.A., Antonyuk R. Geonika. Geommimetika kak nauka o razrabotke i primenenii effektivnyh kompozitov dlya monolitnogo stroitel'stva [Geonics. Geommimetics as a science of the development and application of effective composites for monolithic construction]. Science-intensive technologies and innovations, 2019: 221-224.

13. Bychkova A.A. Otobazhenie sinergetiki v arhitekturnoj geonike (Geomimetike) [Displaying synergetics in architectural geonics (geomimetics)]. Economics. Society. Man, 2019: 57-61.

14. Cvetkova JU.P. Geonika kak novoe stilistich-eskoe napravlenie v arhitekture [Geonics as a new stylistic direction in architecture]. Fundamental basis of building materials, 2017: 1260-1265.

15. Nemtseva A.V., Ponomareva M.M. Arhitekturnaya geonika v sovremennyh tvorcheskih koncepciyah [Architectural geonics in modern creative concepts]. Naturelike technologies of building composites to protect the human environment, 2019: 34-38. (In Russian)

16. Lesovik V., Volodchenko A., Glagolev E., Lash-ina I., Fischer H. Geonics (geomimetics) as a theoretical basis for new generation compositing. 14th International Congress for Applied Mineralogy (ICAM2019). Сер. “Springer Proceedings in Earthand Environmental Sciences", 2019: 344-347, https://doi.org/10.W07/978-3-030-22974-0_83.

17. Lesovik V.S., Lesovik O.V., Volodchenko A.A. Geonics (Geomimetics) as a Theoretical Approach for Designing and Production of Natural-Like Heat-Insulating Structurally and Composites with Acoustic Properties. Journal of southwest jiaotong university, 2020; 55(3) https://doi:10.35741/issn.0258-2724.55.3.14.

18. Pershina I. L. On study and accounting of geophysical fields in architectural space of sacral purpose. IOP Conference Series: Materials Science and Engineering, 2019, vol. 687, https://doi:10.1088/1757-899X/687/5/0550.

19. Lesovik, V. S. Geneticheskie osnovy energos-berezhenija v promyshlennosti stroitel'nyh materialov [Genetic foundations of energy saving in the construction materials industry]. Izv.vuzov. Construction, 1994; 7: 96-100. (In Russian)

20. Lesovik V.S. Snizhenie energoemkosti proizvodstva stroitel'nyh materialov za schet ispol'zovanija energetiki geologicheskih i tekhnogennyh processov [Reduction of energy intensity of production of building materials due to the use of energy of geological and technogenic processes]. Ibaus. Internationale Baust-offtagung, Weimar, 2012.

21. Gar'kina I.A., Danilov A.M. Korolev E.V. Evoljucija predstavlenij o kompozicionnyh materialah s pozicij smeny paradigm [Evolution of ideas about composite materials from the standpoint of changing paradigms]. Construction materials, 2018; 1(2): 60-62.

22. Eshbi U. R. Vvedenie v kibernetiku [Introduction to Cybernetics]. Translated from English. Moscow: KomKniga, 2006, 432 p.

23. Korolev E. V. Perspektivy razvitija stroitel'nogo materialovedenija [Prospects for the development of construction materials science]. Academia, Architecture and Construction, 2020, No. 3. (In Russian)

24. Danish A., Mosaberpanah M.A. Formation mechanism and applications of cenospheres: a review// Journal of Materials Science, 2020; 55(11): 4539-4557.

25. Fedyuk R.S., Mochalov A.V., Pezin D.N., Timo-hin R.A. Samouplotnyayushchiesya betony s primeneniem othodov rastenievodstva [Selfcompacting concrete with the use of crop waste]. Bulletin of the Siberian State Automobile and Road University, 2018; 15, No 2 (60): 294-304.

26. Rajabi A.M., Omidi Moaf F., Abdelgader H.S. Evaluation of Mechanical Properties of Two-Stage Concrete and Conventional Concrete Using Nondestructive Tests. // Journal of Materials in Civil Engineer-ingp, 2020; 32 (7), 04020185.

27. Suleimanova L.A., Malyukova M.V., Koryakina A.A. Dekorativnye betony v arhitekturnoj geonike [Decorative concretes in architectural geonics]. Naturelike technologies of building composites to protect the human environment, 2019: 57-61.

28. Lepskiy, V. Evolution of cybernetics: philosophical and methodological analysis. Kybernetes, 47(2): 249-261. https://doi.org/10.1108/K-03-2017-0120.

29. Elistratkin M.Y, Glagolev E.S., Absimetov M.V., Voronov V.V.: Composite Binder for Structural Cellular Concrete. Materials Science Forum, 2019; 945: 53-58, https://doi.org/10.4028/www.scientific.net/MSF.945.53.

30. Ayzenshtadt A.M., Shinkaruk A.A., Frolova M.A. Possible Criterion for Evaluating the Compatibility of Components in the Building Mixtures. Innovations and Technologies in Construction. BUILDINTECH BIT. Lecture Notes in Civil Engineering, 2020; vol. 95, https://doi.org/10.1007/978-3-030-54652-6_42.

31. Bystrova T Y. Concept of Organic Architecture in the Second Half of the XXth Century in the Context of Sustainable Development. IOP Conf. Series: Materials Science and Engineering, 2019; vol. 481, 01202, https://doi:10.1088/1757-899X/481/1/012020.

32. Glagolev E.S. Development of composite binders' compositions for additive technologies in low-rise building construction. Lecture Notes in Civil Engineering, 2020; 95: 150-157, https://doi.org/10.1007/978-3-030-54652-6_23.

33. Afanas'ev M.N. Formirovanie teoreticheskih osnov modifikacii betonov [Formation of theoretical foundations of concrete modification]. Aktual’nye nauchnye issledovaniya v sovremennom mire, 2019; 4-1 (48): 26-28. (In Russian)

34. Chernyshov E.M. Materialovedenie i tekhnologiya stroitel'nyh kompozitov kak sistema nauchnogo znaniya i predmet razvitiya issledovanij. CHast' 1. Postanovka problemy i ee sushchestvo [Materials science and technology of building composites as a system of scientific knowledge and a subject of research development]. Izvestiya vysshih uchebnyh zavedenij. Stroitel'stvo, 2018;12 (720): 41-51. (In Russian)