The main aim of the work was the experimental and numerical analysis of the energy
absorption/dissipation capabilities and failure mechanisms of novel hyper-elastic target …

The dynamic compressive behavior of concrete is investigated using a Φ 74-mm variable
cross section straight taper split Hopkinson pressure bar (SHPB) apparatus in this study. In …

The effect of using a pulse shaper technique, such as rounding a striker or applying a pulse
shaper on the signals recorded with the split Hopkinson pressure bar (SHPB) technique …

Split Hopkinson pressure bar (SHPB) tests are popular in calibrating material models at high
strain rates under the assumption of constant strain rates. Nonetheless, numerous strain …

Materials and their development process are highly dependent on proper experimental
testing under wide range of loading within which high-strain rate conditions play a very …

The split Hopkinson pressure bars (SHPB) system is the most commonly employed machine
to study the dynamic characteristics of different materials under high strain rates. In this …

The high strain rate characterization of materials have always remained an essential to
know the exact behaviour in dynamic conditions, such as blasts, earthquakes, projectile …

The constant strain rate loading and dynamic stress equilibrium are prerequisites for
ensuring the experimental data of the Split Hopkinson Pressure Bar (SHPB). In order to …

The paper presents a possibility of numerical modelling of a copper shaper utilized in an
SHPB device with additional attention paid to the proper bar-shaper interaction simulation …

In this paper, we studied several key problems in the shock calibration of high-g
accelerometers, in which the Hopkinson bar system was employed as the loading and …