Modeling of the Heat and Kinetic Phenomena Accompanying the Different Material Joining Using Solid-Phase Synthesis

Kamila A. Aligozhina; Anna G. Knyazeva

doi:10.4028/www.scientific.net/AMR.1040.519

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1040Modeling of the Heat and Kinetic Phenomena...

Modeling of the Heat and Kinetic Phenomena Accompanying the Different Material Joining Using Solid-Phase Synthesis

Abstract:

Two-dimensional model of different material joining using solid-phase synthesis has been formulated. The model represents two-dimensional coupled thermal conductivity problem with allowance for the heat release due to chemical reaction course in an adhesive composition. The problem has been solved numerically with the help of a non-explicit difference scheme, coordinate splitting and linear double-sweep method. The influence of thermophysical parameters difference on the temperature and conversion degree fields, reaction zone width and conversion zone propagation velocity have been determined.

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Periodical:

Advanced Materials Research (Volume 1040)

Pages:

519-524

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1040.519

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Online since:

September 2014

Authors:

Kamila A. Aligozhina*, Anna G. Knyazeva

Keywords:

Asymmetry Conditions, Combustion Modes, Exothermal Reactions, Material Conjugation, Solid-Phase Conversion, Thermophysical Properties

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References

[1] V.A. Strunin, A.N. Firsov, K.G. Shkadinskii, G.B. Manelis, Regularites of heterogeneous combustion of layer system, Combustion, explosion and shock waves. 25/5 (1988) 25-32.

DOI: 10.1007/bf00772964

Google Scholar

[2] A. N. Baideldinova, G. I. Ksandopulo, Quasi-adiabatic self-propagating high-temperature synthesis in layered systems, Inorganic materials. 39/10 (2003) 1204-1207.

Google Scholar

[3] G. I. Ksandopulo, A. N. Baideldinova, Layered system combustion and high-temperature synthesis of materials, Russian journal of applied chemistry. 77/3 (2004) 370-374.

Google Scholar

[4] K.G. Shkadinskii, M.I. Lebedeva Stationary flame propagation in solid heterogeneous sysems at the heat losses presence, Combustion, explosion and shock waves. 11/4 (1975) 530–536.

DOI: 10.1007/bf00744909

Google Scholar

[5] A. A. Chaschina, A. G. Knyazeva, Regimes of solid-phase reaction propagation in a slit between two plates, Physical mesomechanics. 7 (2004) 82-85.

Google Scholar

[6] K. A. Aligozhina, A. G. Knyazeva, Heat impulse source initialization of chemical reaction in a split between heterogeneous materials, Russian physics journal. 56/12-2 (2013) 34-38.

Google Scholar