Abstract
A mathematical method for modeling the processes of structure information of dispersed systems and composite materials is proposed using dynamic models that take account of energy, structural and rheological features of interparticle interaction. The conditions of the processes of spontaneous formation of floccules and clusters are considered. Mathematical models of clusters structure formation in dispersed systems are constructed, the parameters of clusters and the prescription-technological conditions of their formation are determined. Control possibility of the processes of disperse systems structure formation in order to obtain the optimal parameters of the structure and properties of composite materials on the basis of the proposed models and mathematical methods is shown.
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References
Ebeling V, Engel A, Feistel R (2001) Physics of evolutionary processes. URSS Publishing House, Moscow
Bobryshev AN, Kozomazov VN, Babin LO, Solomatov VI (1994) Synergetics of composite materials. NPO ORIUS, Lipetsk
Bormotov AN, Proshin AP, Korolev EV, Danilov AM, Garkina IA (2003) Development and quality management of building materials with adjustable structure and properties for radiation protection. In: Proceedings of the II international conference “identification of systems and control tasks SICPRO'03”. Publishing house of the V A Trapeznikov Institute of Control Sciences of the Russian Academy of Sciences, Moscow, pp 2437–2460
Proshin AP, Danilov AM, Korolev EV, Smirnov VA (2003) Dynamic models in the study of clustering in composite materials. Limit systems. Izvestiya vuzov. Building. Publishing house of the Novosibirsk State University of Architecture and Civil Engineering, Novosibirsk, vol 3, pp 32–38
Proshin AP, Danilov AM, Garkina IA, Bormotov AN, Solomatov VI (2001) Theoretical aspects of the synthesis of polymer composite materials for protection from radiation Izvestiya VUZov. Building and architecture. Publishing house of the Novosibirsk State University of Architecture and Civil Engineering Novo-Siberian, vol 6, pp 7–9
Melker AI, Vorobieva TV (1997) Self-organization and formation of helicoidal structures of polymers. Solid State Phys (Ioffe Physicotech Inst RAS, 39(10):1883–1889
Bormotov AN (2011) Mathematical modeling and multicriteria synthesis of composite materials for special purposes, Ph.D. thesis, Penza, PSTU
Bormotov AN (2012) Polymer composite materials for radiation protection. P.h. Paleotype, Moscow
Proshin AP, Korolev EV, Bormotov AN, Figovsky OL (2005) The extra-heavy concrete for protection from radiation. In: Proceedings of the international conference on role of concrete in nuclear facilities 2005 international congress – global construction: ultimate concrete opportunities. Ser. “Role of concrete in nuclear facilities – proceedings of the international conference”, University of Dundee, Concrete Technology Unit. Dundee, Scotland, pp 69–76
Proshin AP, Korolev EV, Bormotov AN (2011) Mathematical modeling and multicriteria synthesis of composite materials, P.h. PSTU, Penza
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Bormotov, A., Gorokhova, A. (2022). Modeling the Clustering of Dispersed Systems Using Dynamic Models. In: Mottaeva, A. (eds) Technological Advancements in Construction. Lecture Notes in Civil Engineering, vol 180. Springer, Cham. https://doi.org/10.1007/978-3-030-83917-8_6
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DOI: https://doi.org/10.1007/978-3-030-83917-8_6
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