Advanced Applications of Evolution processes in in Solutions of Interacting Polymers
Ключевые слова:
Artificial evolution, Hydrophilic interpolymer associate, Phase transitionАннотация
In this work the experimental technique, which allows investigate the processes of artificial evolution, is offered. Artificial evolution processes occur in solutions of polymers capable to form hydrophilic interpolymer associates. Those processes are caused by external action, for example, periodical heating of solution of interacting polymers. The observation of phase transition shows that evolution processes can be governed by external action in special way. Here we show the relationship of experiments that ensure artificial evolution in systems of the specified type in physical chemistry of polymers with processes in nanotechnology and processes in sociology and economic disciplines. Such approach is prevalent for systems having large number of elements and specified relations between its elements.Библиографические ссылки
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6 Suleimenov, I., Güven, O., Mun, G., Beissegul, A., Panchenko, S., & Ivlev, R. (2013). The formation of interpolymer complexes and hydrophilic associates of poly (acrylic acid) and non‐ionic copolymers based on 2‐hydroxyethylacrylate in aqueous solutions. Polymer International, 62(9), 1310-1315.
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2 Pratt, A. J. (2011). Prebiological evolution and the metabolic origins of life. Artificial Life, 17(3), 203-217.
3 Suleimenov, I., & Panchenko, S. (2013). Non-Darwinists Scenarios of Evolution of Complicated Systems and Natural Neural Networks Based on Partly Dissociated Macromolecules. World Applied Sciences Journal, 24(9), 1141-1147.
4 Suleimenov, I., Gabrielyan, O., Mun, G., Panchenko, S., Amirzhan, T., & Suleimenov, K. (2014). Voting Procedure and Neural Networks. International Journal on Communications (IJC) Volume 3, pp 16 – 20
5 Suleymenova, K. I., Shaltykova, D. B., & Suleimenov, I. E. (2013). Aromorphoses phenomenon in the development of culture: a view from the standpoint of neural net theory of complex systems evolution. European Scientific Journal, 9(19).
6 Suleimenov, I., Güven, O., Mun, G., Beissegul, A., Panchenko, S., & Ivlev, R. (2013). The formation of interpolymer complexes and hydrophilic associates of poly (acrylic acid) and non‐ionic copolymers based on 2‐hydroxyethylacrylate in aqueous solutions. Polymer International, 62(9), 1310-1315.
7 Suleimenov, I., Shaltykova, D., Sedlakova, Z., Mun, G., Semenyakin, N., Kaldybekov, D., & Obukhova, P. (2014). Hydrophilic Interpolymer Associates as a Satellite Product of Reactions of Formation of Interpolymer Complexes. Applied Mechanics and Materials, 467, 58-63.
8 Khutoryanskiy, V. V., & Staikos, G. (2009). Hydrogen-bonded interpolymer complexes: formation, structure and applications. World Scientific.
9 Nayfeh A. H., Balachandran B. Applied nonlinear dynamics: analytical, computational and experimental methods. – John Wiley & Sons, 2008.
10 Dolayev, M., Panchenko, S., Bakytbekov, R., & Ivlyev, R. (2014). The Principle of Recording Information in Distributed Environments via Suleimenov-Mun's Waves. Advanced Materials Research, 875, 642-646.
Загрузки
Опубликован
2015-10-24
Выпуск
Раздел
Физика конденсированного состояния и проблемы материаловедения. Нанонаука
