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Effect of temperature on high strain-rate damage evolving in CFRP studied by synchrotron-based MHz X-ray phase contrast imaging

Xiyao Sun, David R. Sory, Kai Liu, Bratislav Lukić, David Simonian, Kwan Lok Wong, Alexander Rack, David J. Chapman, Nik Petrinić, Daniel Eakins

2024Composites Part B Engineering15 citationsDOIOpen Access PDF

Abstract

The present study demonstrates experimental evidence of subsurface mesoscale damage initiation and evolution in angle-ply CFRP laminates under high strain-rate loading at low temperatures using synchrotron-based X-ray MHz radiography. A bespoke set of loading, temperature control and in-situ X-ray imaging systems were applied to simultaneously correlate high strain-rate mechanical response with observed subsurface damage in a time-resolved manner. The results demonstrate that independent of temperature, damage evolved following a specific sequence; firstly intra-ply shear cracking along the fibre direction, developing into multi-layer cracking with continued deformation, and finally culminating in inter-ply delamination and complete failure of the specimen. The timescale for this sequence, however, was observed to strongly depend upon temperature, with low temperatures resulting in more rapid damage evolution and loss of mechanical strength.

Topics & Concepts

SynchrotronMaterials sciencePhase contrast microscopyPhase-contrast imagingPhase (matter)Contrast (vision)Synchrotron radiationStrain (injury)X-rayOpticsPhysicsMedicineAnatomyQuantum mechanicsHigh-Velocity Impact and Material BehaviorIon-surface interactions and analysisIntegrated Circuits and Semiconductor Failure Analysis
Effect of temperature on high strain-rate damage evolving in CFRP studied by synchrotron-based MHz X-ray phase contrast imaging | Litcius