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Seplyarskii B. S. Kochetkov R. A. Lisina T. G. Abzalov N. I. 《Combustion, Explosion, and Shock Waves》2021,57(3):334-342
Combustion, Explosion, and Shock Waves - This paper touches upon the effect of a polyvinyl butyral content (0–2.3%) on the combustion of a Ti + C granular... 相似文献
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B. S. Seplyarskii 《Combustion, Explosion, and Shock Waves》2000,36(4):442-451
An analytical method for calculating the time characteristics of ignition of a porous body with outflow of an inert gas from
the sample (counterflow nonstationary filtration) is developed employing the wave theory of ignition and an averaging technique
using a certain weighting function. Numerical calculations confirmed the validity of the main assumptions of the theory on
the stagewise nature of the ignition process and the wave mechanism of heating of the material. Complete qualitative and good
quantitative agreement between conclusions of an approximate analysis and numerical results is shown. The error in determining
the times of establishment of zero gradient and disturbance of temperature equilibrium does not exceed 50%. It is established
that the equations of isothermal filtration are adequate for describing the process of gas escape from a porous body during
ignition. It is shown that the gas mass flow can be calculated using a quasistationary approach. The region of applicability
of the model of a semiinfinite body in ignition problems with counterflow nonstationary filtration of gases is determined.
Translated fromFizika Goreniya i Vzryva, Vol. 36, No. 4, pp. 31–40, July–August, 2000. 相似文献
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B. S. Seplyarskii S. V. Kostin G. B. Brauer 《International Journal of Self-Propagating High-Temperature Synthesis》2008,17(2):121-124
Explored is the filtration combustion in Ti-(Ti + 0.5C) layered powder systems in a coflow of nitrogen gas. The presence/absence
of nitrogen coflow through the layered system was found to drastically affect the character of wave propagation and structure/properties
of product. The obtained data can be regarded as a basis for fabrication of new layered and composite materials in the mode
of dynamic filtration combustion.
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N. A. Kochetov B. S. Seplyarskii S. G. Vadchenko 《International Journal of Self-Propagating High-Temperature Synthesis》2008,17(3):206-209
Combustion of bulk density Ti powder (containing 20 wt % TiN as a diluent) in a coflow of N2-Ar mixture was investigated upon variation in the nitrogen content of the gaseous mixture. The obtained data are believed
to open up new horizons for fabrication of layered and composite ceramics by infiltration-mediated combustion.
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B. S. Seplyarskii S. V. Kostin G. B. Brauer 《Combustion, Explosion, and Shock Waves》2008,44(6):655-661
The filtration combustion of a layered porous fill consisting of alternating layers of a mixture of Ti + 0.5C a titanium powder
with forced concurrent filtration of nitrogen was studied for the first time. The gas flow through the sample was provided
by a vacuum pump attached to the lower end of the fill. The presence of the concurrent gas flow radically changes the character
of propagation of the combustion front and the structure and composition of the products obtained. The layers consisting of
carbonitride and titanium nitride make a single unit. The experiments provided scientific bases for the production of new
laminated and composite ceramic materials by dynamic filtration combustion.
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Translated from Fizika Goreniya i Vzryva, Vol. 44, No. 6, pp. 44–51, November–December, 2008. 相似文献
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Alymov M. I. Seplyarskii B. S. Vadchenko S. G. Kochetkov R. A. Abzalov N. I. Rubtsov N. M. Kovalev I. D. Zelenskii V. A. Galiev F. F. 《Combustion, Explosion, and Shock Waves》2021,57(3):326-333
Combustion, Explosion, and Shock Waves - Various macrokinetic modes of interaction (self-ignition or combustion) of compact samples from nonpassivated (pyrophoric) and passivated iron nanopowders... 相似文献
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B. S. Seplyarskii S. G. Vadchenko S. V. Kostin G. B. Brauer 《International Journal of Self-Propagating High-Temperature Synthesis》2008,17(2):117-120
The burning velocity of bulk density Ti-C powder mixtures was found to increase with increasing flow rate of inert gas. In
some cases, it was also accompanied by stabilization of planar combustion front. The obtained data were rationalized in terms
of convention-conduction theory (CCT). The effect can be used as a simple and effective mean for controlling the combustion
process and purification of products from impurity gases. 相似文献
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Using the ignition wave theory, the dependence of the ignition process stage periods for a condensed material and an incandescent surface, when a parabolic interaction law applies to the initial reagents, on the basic problem parameters — the dimensionless temperature gradient and the transformation depth in the intermediate combustion wave — has been determined for the first time. It is shown that the equation for a stage period can be represented in the form of a product of two functions: one being dependent on the temperature gradient, and the other — on the transformation depth. The dependence of the characteristic times on the transformation depth for a constant temperature gradient is found to be linear in nature. It is established that for a parabolic interaction law, there exists no limiting transition to the ignition mechanism that is characteristic of zero order reactions. The following critical conditions are formulated: an ignition does occur if a reaction zone is formed which is capable of spreading through the material in the combustion regime. Specialized numerical computations have confirmed the correctness of the assumptions of the stagelike character of the ignition process and of the wavelike nature of the heating of the material, on which the theory was based, and also validated the basic conclusions drawn from the approximate analysis.I.S.M., Russian Academy of Sciences, 142432, Chernogolovka. Translated from Fizika Goreniya, Vol. 30, No. 6, pp. 8–15, November–December, 1994. 相似文献
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The functional dependence of the ignition delay time on the main parameters of the problem is determined for condensed systems interacting through a layer of high-melting product by a power law. A formula for determining the ignition temperature from the equality between the external heat flux and integral heat evolution in a chemical reaction in a stationary combustion wave with temperature equal to the ignition temperature is proposed and substantiated. It is shown that at a surface temperature below the ignition temperature the heating can be considered inert and the duration of this stage makes up the bulk of the delay time.Institute of Structural Macrokinetics, Russian Academy of Sciences, Chernogolovka 142432. Tranalated from Fizika Goreniya i Vzryva, Vol. 31, No. 4, pp. 3–9, July–August, 1995. 相似文献