Xiao Dawu, Ma Ce, He Lifeng. Dimensional effects of hat-shaped specimen in Hopkinson bar test[J]. Explosion And Shock Waves, 2016, 36(1): 64-68. doi: 10.11883/1001-1455(2016)01-0064-05
Citation:
Xiao Dawu, Ma Ce, He Lifeng. Dimensional effects of hat-shaped specimen in Hopkinson bar test[J]. Explosion And Shock Waves, 2016, 36(1): 64-68. doi: 10.11883/1001-1455(2016)01-0064-05
Xiao Dawu, Ma Ce, He Lifeng. Dimensional effects of hat-shaped specimen in Hopkinson bar test[J]. Explosion And Shock Waves, 2016, 36(1): 64-68. doi: 10.11883/1001-1455(2016)01-0064-05
Citation:
Xiao Dawu, Ma Ce, He Lifeng. Dimensional effects of hat-shaped specimen in Hopkinson bar test[J]. Explosion And Shock Waves, 2016, 36(1): 64-68. doi: 10.11883/1001-1455(2016)01-0064-05
Numerical Hopkinson bar experiments of hat-shaped specimens with different geometries were carried out using ANSYS/LS-DYNA to investigate the effects resulting from varying the geometrical dimensions of specimens. Results show that the stress value calculated by the classic formula deviated drastically from the theoretical value, when the width t the of shear zone was larger than 0.2 mm. When the width t was 1.0 mm, the calculated stress value would even rise up to twice as much as close to the theoretical value. Further research with the split model revealed that the deviation of the stress mainly occurred as a result from the expansion deformation of the brim portion of the hat-shaped specimen. An improved method of data processing for the hat-shaped specimen was also presented based on the numerical simulation results. Finally, the method was also validated by SHPB experiments with cylinder specimens and hat-shaped specimens with different dimensions.
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