Mazor, G.G.MazorIgra, O.O.IgraBenDor, G.G.BenDorMond, M.M.MondReichenbach, H.H.Reichenbach2022-03-032022-03-031992https://publica.fraunhofer.de/handle/publica/18143110.1098/rsta.1992.0008A physical model for describing the head-on collision process between a normal shock wave and a rubber-supported plate was developed. This model was solved numerically for three different modes of rubber loading; (1) uni-axial stress, (2) bi-axial stress, (3) uni-axial strain. The numerical solution provides information regarding the gas flow and the rubber properties at different times and location. The numerical results were compared with shock tube experiments. A good agreement was found between the numerical predictions and the experimental findings.enGummi-BelastungGummi-gestützte Wandreflectionreflexionrubber-loadingrubber-supported wallshock-tube experimentshock waveStoßrohrexperimentStoßwelle620530journal article