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

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

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...

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Veröffentlicht in:International journal of impact engineering 2010-11, Vol.37 (11), p.1113-1120
Hauptverfasser: Prentice, H.J., Proud, W.G., Walley, S.M., Field, J.E.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Bonded sugar
Bonding
Chemical industry and chemicals
Digital
Digital speckle radiography
Exact sciences and technology
Explosions
Explosive bonding
Explosive impact tests
Explosive reactive armour
Explosive simulant
Fracture mechanics (crack, fatigue, damage...)
Fundamental areas of phenomenology (including applications)
Industrial chemicals
Mechanical properties
Physics
Polymer
Powders, propellants, explosives
Radiography
Solid mechanics
Structural and continuum mechanics
Sugar mock
Sugars
Two-dimensional flow
Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
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Zusammenfassung: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 sugar mock) 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.
ISSN:0734-743X
1879-3509
DOI:10.1016/j.ijimpeng.2010.05.003