Citation: Dn. Williams et al., A NUMERICAL STUDY OF THE MECHANISMS OF SELF-REIGNITION IN LOW-OVERDRIVE DETONATIONS, Shock waves, 6(2), 1996, pp. 93-110
Citation: Rr. Boyce et al., ROTATIONAL AND VIBRATIONAL TEMPERATURE-MEASUREMENTS USING CARS IN A HYPERVELOCITY SHOCK LAYER FLOW AND COMPARISONS WITH CFD CALCULATIONS, Shock waves, 6(1), 1996, pp. 41-51
Citation: Mn. Wendt et Rj. Stalker, TRANSVERSE AND PARALLEL INJECTION OF HYDROGEN WITH SUPERSONIC COMBUSTION IN A SHOCK TUNNEL, Shock waves, 6(1), 1996, pp. 53-59
Authors:
IVANOV M
ZEITOUN D
VUILLON J
GIMELSHEIN S
MARKELOV G
Citation: M. Ivanov et al., INVESTIGATION OF THE HYSTERESIS PHENOMENA IN STEADY SHOCK REFLECTION USING KINETIC AND CONTINUUM METHODS, Shock waves, 5(6), 1996, pp. 341-346
Citation: Na. Artemeva et Vv. Shuvalov, INTERACTION OF SHOCK-WAVES DURING THE PASSAGE OF A DISRUPTED METEOROID THROUGH THE ATMOSPHERE, Shock waves, 5(6), 1996, pp. 359-367
Citation: Y. Kobayashi et al., VAPOR CONDENSATION BEHIND A SHOCK-WAVE PROPAGATING THROUGH A LARGE MOLECULAR-MASS MEDIUM, Shock waves, 5(5), 1996, pp. 287-292
Citation: S. Yungster et K. Radhakrishnan, A FULLY IMPLICIT TIME ACCURATE METHOD FOR HYPERSONIC COMBUSTION - APPLICATION TO SHOCK-INDUCED COMBUSTION INSTABILITY, Shock waves, 5(5), 1996, pp. 293-303
Citation: Mh. Johnston et al., EFFECT OF AN INHIBITOR ON HIGH-SPEED TURBULENT FLAMES AND THE TRANSITION TO DETONATION, Shock waves, 5(5), 1996, pp. 305-309
Citation: Bm. Baymirov et Vg. Grudnitski, NUMERICAL INVESTIGATION OF INTERACTIONS BETWEEN SHOCK-WAVES AND THERMAL INHOMOGENEITIES AFTER MULTIPOINT ENERGY EMISSION, Shock waves, 5(4), 1995, pp. 193-198
Citation: A. Chpoun et G. Bendor, NUMERICAL CONFIRMATION OF THE HYSTERESIS PHENOMENON IN THE REGULAR TOTHE MACH REFLECTION TRANSITION IN STEADY FLOWS, Shock waves, 5(4), 1995, pp. 199-203