Bhupesh Verma scite author profile

In cranial wounds resulting from a gunshot, the study of backspatter patterns can provide information about the actual incidents by linking material to surrounding objects. This study investigates the physics of backspatter from a high-speed projectile impact and evaluates a range of simulant materials using impact tests. Next, we evaluate a mesh-free method called smoothed particle hydrodynamics (SPH) to model the splashing mechanism during backspatter. The study has shown that a projectile impact causes fragmentation at the impact site, while transferring momentum to fragmented particles. The particles travel along the path of least resistance, leading to partial material movement in the reverse direction of the projectile motion causing backspatter. Medium-density fiberboard is a better simulant for a human skull than polycarbonate, and lorica leather is a better simulant for a human skin than natural rubber. SPH is an effective numerical method for modeling the high-speed impact fracture and fragmentations.

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Studies on the influence of axial bends on ultrasonic guided waves in hollow cylinders (pipes)

Verma¹,

Balasubramaniam²,

Rajagopal³

2013

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Bhupesh Verma

Interaction of low-frequency axisymmetric ultrasonic guided waves with bends in pipes of arbitrary bend angle and general bend radius

Evaluating Simulant Materials for Understanding Cranial Backspatter from a Ballistic Projectile

Studies on the influence of axial bends on ultrasonic guided waves in hollow cylinders (pipes)

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