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Nanoscience and Technology: An International Journal

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STRESSES IN THE VICINITY OF THE REACTION CELL DURING THE SYNTHESIS OF A COMPOSITE OF NONEQUILIBRIUM COMPOSITION

Volumen 11, Ausgabe 1, 2020, pp. 37-54
DOI: 10.1615/NanoSciTechnolIntJ.2020032541
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Mariia A. Anisimova
Institute of Strength Physics and Materials Science of Siberian Branch of Russian Academy of Sciences (ISPMS SB RAS), Tomsk 634055, Russia; National Research Tomsk Polytechnic University, 30 Lenin Ave., Tomsk, 634050, Russia
Anna G. Knyazeva
Institute of Strength Physics and Materials Science of Siberian Branch of Russian Academy of Sciences (ISPMS SB RAS), Tomsk 634055, Russia

ABSTRAKT

The process of interphase layer growth in titanium-based composite with carbon inclusions is the subject of this work. A model of the transient layer formation between the inclusion and matrix is proposed taking into account the possibility for coexistence of several phases. This problem with moving boundaries is solved analytically in quasistationary approximation. Stresses and strains forming in the reactive cell near the vicinity of the reaction-diffusion zone during the synthesis of the composite are calculated in quasistatic formulation. The effective properties of the obtained composite with particles of nonequilibrium composition are evaluated.

SCHLÜSSELWÖRTER: composite, transient layer, reaction cell, moving boundaries, stresses, strains, effective properties
REFERENZEN

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  6. Knyazeva, A.G., Nonlinear Diffusion Models of Deformed Media, Phys. Mesomech., vol. 14, no. 6, pp. 35-5i, 2011.

  7. Knyazeva, A.G., Cross Effects in Solid-Phase Transformation, Chem. Sustain. Develop., vol. 10, nos. 1-2, pp. 57-63, 2002.

  8. Knyazeva, A.G., Pribytkov, G.A., and Chumakov, Yu.A., Titanium-Based Composite Synthesis in the Combustion Regime, J. Silicate Based Composite Mater., vol. 70, no. 3, pp. 74-77, 20i8. DOI: 10. 143 82/epitoanyag-j sbcm.2018. 13.

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  11. Ley ens, C. and Peters, M., Eds., Titanium and Titanium Alloys. Fundamentals and Applications, Weinheim: Wiley-VCH Verlag GmbH, 2003.

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  14. Nekrasov, E.A., Maksimov, Yu.M., and Aldushin, A.P., Calculation of Critical Thermal Explosion Conditions in Hafnium-Boron and Tantalum-Carbon Systems using State Diagrams, Combust., Explos. Shock Waves, vol. 16, no. 3, pp. 342-347, 1980.

  15. Nekrasov, E.A., Smolyakov, V.K., and Maximov, Yu.M., Mathematical Model for Titanium-Carbon System Combustion, Combust. Explos. Shock Waves, vol. 17, no. 5, pp. 513-520, 1981.

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  18. Sevostianov, I., Mogilevskaya, S.G., and Kushch, V.I., Maxwell Methodology of Estimating Effective Properties: Alive and Well, Int. J. Eng. Sci, vol. 140, pp. 35-88, 2019.

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REFERENZIERT VON

  1. Anisimova M., Knyazeva A., Basic models of phase formation at the mesolevel under reactive sintering of Ti-Al-Fe2O3 powder mixture, 8th International Congress on Energy Fluxes and Radiation Effects, 2022. Crossref

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