Buried charges pose a serious threat to both civilians and military personnel. It is well established that soil properties have a large influence on the magnitude and variability of loading from explosive blasts in buried conditions. In this study, work has been undertaken to improve techniques for processing pressure data from discrete measurement apparatus; this is performed through the testing of truncation methodologies and the area integration of impulses, accounting for the particle size distribution (PSD) of the soils used in testing. Two experimental techniques have been investigated to allow for a comparison between a global impulse capture method and an area-integration procedure from a Hopkinson Pressure Bar array. This paper explores an area-limiting approach, based on particle size distribution, as a possible approach to derive a better representation of the loading on the plate, thus demonstrating that the spatial distribution of loading over a target can be related to the PSD of the confining material.
CITATION STYLE
Waddoups, R., Clarke, S., Tyas, A., Rigby, S., Gant, M., & Elgy, I. (2023). An Approach to Quantifying the Influence of Particle Size Distribution on Buried Blast Loading. Eng, 4(1), 319–340. https://doi.org/10.3390/eng4010020
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