Abstract: This invention relates to fragmentation-beam ammunition capable of simultaneous axial and circular field destruction. The objects of this invention are providing a variable configuration axial field of the fabricated destructive elements for the reliable destruction of different types of tank threatening targets and providing for the complete destruction of the fragmentation unit following explosive charge detonation in the projectile. The technical solution according to this invention, the projectile comprises an elongated explosive charge with a detonator in the form of a rotation body with a curvilinear generatrix located coaxially with the fragmentation unit wherein said detonator is electrically connected with the fuse and said fuse comprises a device (an adapter booster) for varying the time interval between the activation of both detonators depending on the setting, said detonators comprising safety devices.

Abstract: This invention relates to fragmentation-beam ammunition capable of simultaneous axial and circular field destruction. The objects of this invention are providing a variable configuration axial field of the fabricated destructive elements for the reliable destruction of different types of tank threatening targets and providing for the complete destruction of the fragmentation unit following explosive charge detonation in the projectile. The technical solution according to this invention, the projectile comprises an elongated explosive charge with a detonator in the form of a rotation body with a curvilinear generatrix located coaxially with the fragmentation unit wherein said detonator is electrically connected with the fuse and said fuse comprises a device (an adapter booster) for varying the time interval between the activation of both detonators depending on the setting, said detonators comprising safety devices.

Abstract: The invention is in the field of testing technologies, relating more particularly to equipment used in certification tests and in forensic investigations into dynamic mechanical effects upon biological subject. The target comprises a means to simulate a biological subject, which has the the form of blocks 1, 2, and 3 arranged consecutively, one after another. Each of the blocks 1, 2, and 3 comprises a simulating section in the form of a layer of a material, whose mechanical properties approximate those of the skin, muscle, or bone tissue, and a recording section in the form of a layer 5 of a colorant-containing material, a layer 6 of a cellular material, and two substrates 7, wherebetween is accomodated the layer 4 of the simulating section. Vulcanized rubber is used for the material to simulate the skin tissue, unvulcanized rubber for the material to simulate the muscle tissue, and textolite for the material to simulate the bone tissue.