H. J. Prentice scite author profile

This paper reports an initial study into the benefits of determining two-dimensional flow fields for low velocity impact on a small-scale model of explosive reactive armour (ERA) using digital speckle radiography (DSR). The model system consisted of a polymer-bonded sugar (PBS) (otherwise known as a sugarmock) confined between two mild steel plates. The DSR technique relies upon creating a layer within the specimen that is seeded with lead particles. So although radiography itself is mechanically non-invasive, the lead layer needed may change the mechanical properties of the material. DSR revealed where regions of intense shear occurred in normal impact. These regions are likely to be where a polymer-bonded explosive (PBX) would initiate.

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Three-Dimensional Dynamic Deformation Measurements Using Stereoscopic Imaging and Digital Speckle Photography

Prentice¹,

Proud²

2006

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Three-Dimensional Penetration Measurements Using Digital Speckle Photography

Prentice¹,

Grantham²,

Proud³

et al. 2004

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H. J. Prentice

Optical techniques for the investigation of the ballistic impact of thin plates

The use of digital speckle radiography to study the ballistic deformation of a polymer bonded sugar (an explosive simulant)

Three-Dimensional Dynamic Deformation Measurements Using Stereoscopic Imaging and Digital Speckle Photography

Three-Dimensional Penetration Measurements Using Digital Speckle Photography

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