Automated Split Hopkinson Pressure Bar for High-Throughput Dynamic Experiments
Designing novel materials for impact applications and predicting material behavior using data-driven techniques require extensive datasets, which can be challenging to obtain through conventional experimental methods. While high throughput characterization is feasible at the sample micro and nanoscale, there remains a critical need for an experimental ...
M. Ramakumaresan +4 more
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This paper presents the experimental results of recycled aggregate concrete (RAC) specimens prepared with five different amount of recycled coarse aggregate (RCA) [i.e.
Yubin Lu +3 more
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Custom control system for Split Hopkinson Pressure bars
Pedro J. Sousa +3 more
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This study presents a comprehensive experimental investigation of the mechanical response of the jellyroll and complete Li-ion 18650 Nickel–Cobalt–Alumina (NCA) battery under axial compression, highlighting the effects of strain rate and state-of-charge (
Sigit Puji Santosa, Hafiz Fadillah
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Dynamic compressive and tensile properties of mortar under impact loading were investigated experimentally by using a split Hopkinson pressure bar (SHPB) apparatus with pulse shaping technique.
Fei Yang +4 more
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Dynamic Behavior of Aluminum Alloy Aw 5005 Undergoing Interfacial Friction and Specimen Configuration in Split Hopkinson Pressure Bar System at High Strain Rates and Temperatures. [PDF]
Bendarma A +6 more
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Bulks of Al-B-C obtained by reactively spark plasma sintering and impact properties by Split Hopkinson Pressure Bar. [PDF]
Vasylkiv O +8 more
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An Open-Source Algorithm for Correcting Stress Wave Dispersion in Split-Hopkinson Pressure Bar Experiments. [PDF]
Van Lerberghe A +3 more
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Electromagnetic Interference in Measurements of Radial Stress During Split Hopkinson Pressure Bar Experiments. [PDF]
Barr AD, Clarke SD, Tyas A, Warren JA.
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A Dynamic Tensile Method Using a Modified M-Typed Specimen Loaded by Split Hopkinson Pressure Bar. [PDF]
Lin Y +6 more
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