On the high-rate failure of designed architectures of CFC materials
POSTER
Abstract
The Taylor test is an important means to determine the response of materials to dynamic loading. In this work it is used to determine the integrated response of c-fibre materials to dynamic loading. The hierarchy of damage across the scales is key in determining the suite of operating mechanisms and such information cannot be correlated using traditional sectioning and observation using optical or electron beam microscopy. Experiments record a series of engineered composite plies with high-speed photography. Our study images at the micron length scale with in-line phase contrast but also fast and high spatial resolution methods. Quantitative volume and void morphology developed at various axial distances from the impact face indicate planes of deformation that track back to initiation. This hierarchy of damage across the scales will be key in determining the suite of operating mechanisms; such information cannot be correlated using traditional sectioning and observation using optical or electron beam microscopy.
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