Norbert Faderl scite author profile

Using interlayers of rubber adds a positive effect to the synergy of disruptor–absorber armors. Emerging from its viscoelasticity the material is able to transform mechanical stress into heat. The dynamic mechanical properties of elastomers depend on both ambient temperature and frequency of an applied mechanical load. The damping shows a maximum in the glass transition area. If the frequency of the glass transition is in the magnitude of the mechanical stress rate applied by ballistic impact, the elastomer will undergo the transition and thus show maximized damping. An ideal material for ballistic protection against small calibers is developed by making use of dynamic mechanical analysis and the time–temperature superposition principle. The material is later analyzed by ballistic experiments and compared to other nonideal rubbers with regard to glass transition temperature, hardness and damping. It is shown that by choosing a material correctly with certain glass transition temperature and hardness, the ballistic properties of a steel–rubber–aluminum armor can be enhanced. The chosen material (butyl rubber) with a hardness of 50 °ShA is able to enhance energy absorption during ballistic impact by around 8%, which is twice as good as other rubber with non-optimized properties.

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Evaluation of strength model parameters from Taylor impact tests

Nussbaum

Faderl

2011

Procedia Engineering

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Dynamic Back Face Deformation of a Combat Helmet Upon Oblique Impact of a 7.62X39 MM PS Projectile

Seidl¹,

Faderl²,

Becker³

2019

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Norbert Faderl

Mechanical and optical properties of MgAl2O4 ceramics and ballistic efficiency of spinel based armour

Fast decay solid-state scintillators for high-speed x-ray imaging

Optimizing Viscoelastic Properties of Rubber Compounds for Ballistic Applications

Evaluation of strength model parameters from Taylor impact tests

Dynamic Back Face Deformation of a Combat Helmet Upon Oblique Impact of a 7.62X39 MM PS Projectile

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