Modelling split-Hopkinson pressure bar tests on quartz sand
Barr, A., Clarke, S.D., Petkovski, M. et al. (1 more author)
(2015)
Modelling split-Hopkinson pressure bar tests on quartz sand.
In:
Proceedings of the IGF workshop.
The Annual Postgraduate Research Student Conference - 2015, Sheffield, UK, 15.04.2015, Sheffield, UK.
ISBN 978-88-95940-50-2
Abstract
FE modelling of a confined split Hopkinson pressure bar (SHPB) test on dry quartz sand was
carried out using LS-DYNA in order to assess whether Material Model 5 could replicate experimental results,
which would enable a more detailed investigation of the stress state in SHPB specimen. Quasi-static test data
was used to select the material model input, and the model SHPB was set up to replicate the experimental
conditions. The results show that Material Model 5 replicates the volumetric response provided as input data,
but fails to predict the shear response observed in the quasi-static experiments. This was found to be due to the
model treating the shear modulus as a constant rather than it increasing with strain, a feature which makes the
Material Model 5 unsuitable for modelling SHPB tests on sand.
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