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Assessment of bending waves in Torsion Hopkinson Bar experiments using Photon Doppler Velocimetry

Lukasz Farbaniec, Yuan Xu, Junyi Zhou, Duncan Macdougall, Sophoclis Patsias, Nik Petrinić, Clive R. Siviour, Antonio Pellegrino, Daniel Eakins

2024International Journal of Impact Engineering8 citationsDOIOpen Access PDF

Abstract

A Photon Doppler Velocimetry system that measures the propagation of elastic shear waves in a Torsion Hopkinson Bar (THB) system is presented. The method uses multiple fiber optic probes located symmetrically on opposing sides of the apparatus bars, and provides data with high spatial (a laser irradiated spot size of 35 μ m ) and temporal resolution that is ultimately limited by the data acquisition system and used electronic components. A series of validation experiments simulating the movement of the bar subjected to bending and misalignments demonstrated that this approach is effective in detecting and accounting for the bending waves. The THB experiment under non-ideal conditions, where a combination of shear and bending waves propagates in the system, conclusively confirmed that the disturbance in the acquired signals can be properly addressed with the proposed arrangement of the PDV probes. It was reflected in similar measurements of the component of tangential velocity to the strain gauges. This approach shown to be complementary to the conventional strain gauge technique, but can provide better precision and be more robust under loading and/or temperature conditions that may affect the reliability of strain gauge measurements. • Photon Doppler Velocimetry system is used in Torsion Hopkinson Bar experiments. • Measurements of tangential velocity component are presented and discussed. • Technique robustness is tested and compared with strain gauge measurements. • Approach is effective in detecting and accounting for bending waves.

Topics & Concepts

Torsion (gastropod)VelocimetryLaser Doppler velocimetryBar (unit)AcousticsBendingDoppler effectMaterials scienceOpticsStructural engineeringPhysicsEngineeringComposite materialMeteorologyInternal medicineBlood flowMedicineSurgeryAstronomyHigh-Velocity Impact and Material BehaviorElectromagnetic Launch and Propulsion TechnologyPlanetary Science and Exploration