А. П. Алдушин, Т. М. Мартемьянова, А. Г. Мержанов, Б. И. Хайкин, К. Г. Шкадинский, “Автоколебательное распространение фронта горения в гетерогенных конденсированных средах”, Физика горения и взрыва, 9:5 (1973), 613–626; Combustion, Explosion and Shock Waves, 9:5 (1973), 531

Эта публикация цитируется в следующих 27 статьяx:

O. N. Kryukova, A. G. Knyazeva, “Two-Level Model Controlled Synthesis of a Composite on a Substrate”, Multiscale Sci. Eng., 5:1-2 (2023), 10
Ю. А. Чумаков, А. Г. Князева, “Моделирование синтеза композиционных материалов матрица – включения в режиме горения”, Физика горения и взрыва, 57:4 (2021), 93–105 ; Yu. A. Chumakov, A. G. Knyazeva, “Simulation of synthesis of matrix – inclusion composite materials during combustion”, Combustion, Explosion and Shock Waves, 57:4 (2021), 467–478
Mohammad Bazargan, Anthony R. Kovscek, “Pulsating linear in situ combustion: why do we often observe oscillatory behavior?”, Comput Geosci, 22:4 (2018), 1115
D.P. Adams, “Reactive multilayers fabricated by vapor deposition: A critical review”, Thin Solid Films, 576 (2015), 98
Vladimir Gubernov, Andrei Kolobov, Andrei Polezhaev, Harvinder Sidhu, Geoffry Mercer, “Period doubling and chaotic transient in a model of chain-branching combustion wave propagation”, Proc. R. Soc. A., 466:2121 (2010), 2747
В. В. Губернов, А. В. Колобов, А. А. Полежаев, “Исследование пульсирующих режимов распространения волн в модели горения с цепным механизмом реакции”, Компьютерные исследования и моделирование, 1:3 (2009), 273–280 [V. V. Gubernov, A. V. Kolobov, A. A. Polezhaev, “Pulsating regimes of flames propagation in a model with chain-branching reaction”, Computer Research and Modeling, 1:3 (2009), 273–280 ]
J. H. Park, A. Bayliss, B. J. Matkowsky, A. A. Nepomnyashchy, “On the Route to Extinction in Nonadiabatic Solid Flames”, SIAM J. Appl. Math., 66:3 (2006), 873
Alvin Bayliss, Bernard J. Matkowsky, Vladimir A. Volpert, NATO Science Series II: Mathematics, Physics and Chemistry, 218, Advances in Sensing with Security Applications, 2006, 247
Alvin Bayliss, Bernard J. Matkowsky, Anatoly P. Aldushin, Perspectives and Problems in Nolinear Science, 2003, 145
A Bayliss, B.J Matkowsky, A.P Aldushin, “Dynamics of hot spots in solid fuel combustion”, Physica D: Nonlinear Phenomena, 166:1-2 (2002), 104
A. Makino, “Fundamental aspects of the heterogeneous flame in the self-propagating high-temperature synthesis (SHS) process”, Progress in Energy and Combustion Science, 27:1 (2001), 1
A.P. Aldushin, A. Bayliss, B.J. Matkowsky, “Dynamics in layer models of solid flame propagation”, Physica D: Nonlinear Phenomena, 143:1-4 (2000), 109
A. G. Merzhanov, E. N. Rumanov, “Physics of reaction waves”, Rev. Mod. Phys., 71:4 (1999), 1173
N. J. Balmforth, R. V. Craster, S. J. A. Malham, “Unsteady fronts in an autocatalytic system”, Proc. R. Soc. Lond. A, 455:1984 (1999), 1401
Alexander S. Mukasyan, Alexander S. Rogachev, Arvind Varma, “Mechanisms of pulsating combustion during synthesis of advanced materials”, AIChE Journal, 45:12 (1999), 2580
V.A. Volpert, “Combustion waves with wide reaction zones”, Applied Mathematics Letters, 10:4 (1997), 59
C.S. Raymond, V.A. Volpert, “Stability of uniformly propagating SHS waves in porous solids with melting and flow of reactants”, Chemical Engineering Science, 51:19 (1996), 4443
Atsushi Makino, Chung K. Law, “SHS Combustion Characteristics of Several Ceramics and Intermetallic Compounds”, Journal of the American Ceramic Society, 77:3 (1994), 778
A. P. ALDUSHIN, B. J. MATKOWSKY, K. G. SHKADINSKY, G. V. SHKADINSKAYA, V. A. VOLPERT, “Combustion of Porous Samples with Melting and Flow of Reactants”, Combustion Science and Technology, 99:4-6 (1994), 313
M. G. Lakshmikantha, J. A. Sekhar, “An investigation of the effect of porosity and diluents on micropyretic synthesis”, Metall Trans A, 24:3 (1993), 617