Ballistic limit velocity of tungsten alloy spherical fragment penetrating ceramic/DFRP composite target plates

An experimental study on ballistic limit velocities (v₅₀) of tungsten alloy spherical fragment penetrating ceramic/DFRP composite target plates was performed. Firstly, tungsten alloy spherical fragments vertically impacting ceramic/DFRP composite target plates with different thickness ratio was tested by using a ballistic gun equipment. According to the ballistic experimental results, the relationship between ballistic limit velocity (v₅₀) and area density (AD) of composite target was obtained. Secondly, using the dimensional analysis method and the similarity theory, the simulation law of tungsten alloy spherical fragments penetrating ceramic/DFRP composite target plates was studied. Based on the above results, the empirical formula of the ballistic limit velocity v₅₀ was built. The predicted values using the empirical formula agreed well with the experimental results. The study results were valuable for optimally designing fragment warheads and light armor protective structures.