Doctoral Thesis
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Compared to gun control legislation in Germany, which is supposed to be one of the most stringent in Europe, gun control legislation in Vietnam is by far stricter. Private possession of guns is not possible in Vietnam. One key point in the German weapons act is the allowance for certain facilitations for airguns that impart kinetic energy of less than 7.5 J to the projectile. These airguns are freely available for purchase by persons 18 years of age or older. The 7.5 J limit is applied to airguns without further efinition of projectile characteristics like projectile head, projectile shape or projectile mass. In the course of a possible relaxation of gun control and facilitation of private gun ownership (especially of airguns) in Vietnam, an implementation of a kinetic energy limit, similar to the German 7.5 J limit, is conceivable. It was the aim of this cumulative doctoral thesis to investigate if this energy limit was a sufficient threshold to estimate the dangerousness of a weapon or projectile, especially in cases where the characteristics of the projectiles are fundamentally different from the “standard” projectiles which were basis for the implementation of this energy threshold in the German weapons act in 1968. The first study investigated basic ballistic parameters of plastic-sleeved composite projectiles in comparison to standard diabolo pellets. Although overall results were inconsistent, for some projectile–weapon combinations (particularly for spring-piston air guns), a significant change of the kinetic energy (− 53 up to + 48 %) to the reference projectile was observed. For some projectile types the legal limit of 7.5 J was exceeded by far. The second study focused on an uncommon discarding sabot airgun projectile (SUSSEX SABO). It was demonstrated, that the sabot principle works properly in high power airguns (E > 17 J), but separation of the core projectile from the sabot cup was also observed in mid- (E = 12.5 J) and low-energy (E < 7.5 J) airguns. While muzzle velocity and kinetic energy values of discarded sabot projectiles are comparable to conventional diabolo pellets, energy density (ED) and penetration capacity are significantly higher. Finally, the ballistic performance of a carbon dioxide-actuated arrow pistol (Arcus Arrowstar) was investigated. Compared to conventional diabolo pellets of a similar kinetic energy level, the penetration depth of this arrow projectile was increased by approximately 35 %. This high penetration capacity was mainly caused by the uncommon projectile characteristics (high cross-sectional density q and pointed arrow head). The findings of this work reveal that special projectile types, like the plastic-sleeved composite pellets, might substantially increase the muzzle energy of airguns. Other uncommon projectile types (like the SUSSEX SABO projectile or the Arcus Arrowstar projectile) exert a higher penetration capacity whereas kinetic energy is similar to standard diabolo pellets and is still beneath the legal limit. For these uncommon projectile types, the 7.5 J limit implemented in the German weapons act is not a sufficient threshold. As demonstrated, next to kinetic energy E and energy density ED, the characteristics of the projectile influence their ballistic parameters. So it is strongly recommended to specify legal kinetic energy limits in gun control legislation in greater detail. The design characteristics of the projectiles (cross-sectional density q and design of the projectile head) should be appropriately taken into consideration.