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Schematic setup of SHPB with a high-speed camera system. Note: (i)
Improved Pulse Shaping to Achieve Constant Strain Rate and Stress Equilibrium in Split-Hopkinson Pressure Bar Testing
Constitutive Behavior of a Homogenized AT61 Magnesium Alloy under Different Strain Rates and Temperatures: An Experimental and Numerical Investigation, Journal of Materials in Civil Engineering
Critical Assessment 16: Anisotropy in metals - B. Hutchinson, 2015
PDF) The influence of non-axisymmetric pulse shaper position on SHPB experimental data
Development of a 100 mm-Diameter Split-Hopkinson Pressure Bar for High Strain Rate Characterization of Concrete
Anisotropic mechanical response of AA7475-T7351 alloy at different loading rates and temperatures - ScienceDirect
The schematic diagram of experimental results with different pulse
Materials, Free Full-Text
Experimental and numerical study on the dynamic behavior of a transversely isotropic rock - ScienceDirect
Purnashis Chakraborty - New Delhi, Delhi, India, Professional Profile
PDF) Improved pulse shaping to achieve constant strain rate and stress equilibrium in split-Hopkinson pressure bar testing
Materials, Free Full-Text
PDF) Influence of pulse shaper geometry on wave pulses in SHPB experiments