Citation: Ag. Knyazeva et Yg. Donskaya, A DIFFUSION-DEFORMATION MODEL FOR THE GROWTH OF A SPHERICAL NUCLEUS OF A SOLID-STATE REACTION-PRODUCT, Combustion, explosion, and shock waves, 33(2), 1997, pp. 168-182
Citation: Am. Timokhin et Ag. Knyazeva, MODES OF THE DISTRIBUTION OF REACTION FRO NTS IN COUPLED THERMOMECHANICAL MODEL OF SOLID-PHASE COMBUSTION, Himiceskaa fizika, 15(10), 1996, pp. 85-100
Citation: Ag. Knyazeva, DEVELOPMENT OF A DIFFUSION-CONTROLLED SOLID-STATE REACTION FROM AN INITIAL NUCLEUS, Combustion, explosion, and shock waves, 32(4), 1996, pp. 420-423
Citation: Ag. Knyazeva, APPROXIMATE ESTIMATES OF THE CHARACTERISTICS OF PROPELLANT IGNITION USING RADIANT-FLUX THROUGH SHIELDS WITH VARIOUS PROPERTIES, Combustion, explosion, and shock waves, 32(1), 1996, pp. 22-35
Citation: Ag. Knyazeva et Ve. Zarko, MODELING OF COMBUSTION OF ENERGETIC MATERIALS WITH CHEMICALLY-INDUCEDMECHANICAL PROCESSES, Journal of propulsion and power, 11(4), 1995, pp. 791-803
Citation: Ag. Knyazeva et Vt. Kuznetsov, DESTRUCTION OF THE SURFACE-LAYER OF NITROGLYCERIN POWDER DURING IGNITION AT VARIOUS INITIAL TEMPERATURES, Combustion, explosion, and shock waves, 31(4), 1995, pp. 411-418
Citation: Ag. Knyazeva et Ea. Dyukarev, STATIONARY WAVE OF A CHEMICAL-REACTION IN A DEFORMABLE MEDIUM WITH FINITE RELAXATION-TIME OF THE HEAT-FLUX, Combustion, explosion, and shock waves, 31(3), 1995, pp. 304-312
Citation: Ag. Knyazeva, VELOCITY OF THE SIMPLEST SOLID-PHASE CHEMICAL-REACTION FRONT AND INTERNAL MECHANICAL STRESSES, Combustion, explosion, and shock waves, 30(1), 1994, pp. 43-53
Citation: Ag. Knyazeva et Ve. Zarko, NUMERICAL-SIMULATION OF TRANSIENTS IN THE IGNITION OF 2-COMPONENT PROPELLANTS BY INTENSE HEAT FLUXES, Combustion, explosion, and shock waves, 29(3), 1993, pp. 266-269