Abstract
A new experimental technique was developed to identify crack paths with a resolution of nanometres in fibre-reinforced composites. Cracks were introduced through Vickers indentations on one side of the sample prior to starting the thinning process. Indentations were placed close to the fibres in order to get enough cracks at the fibre/matrix interface in the electron-transparent region of the thinned sample. The technique was used in a Nicalon-fibre Al2O3 matrix composite prior to and after a heat treatment at 1200 degrees C for 1 h. The analysis of the crack paths allowed the identification of the weakest interface in each condition.
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