In Situ Tensile Testing under High-Speed Optical Recording to Determine Hierarchical Damage Kinetics in Polymer Layers of Flax Fibre Elements

Abstract: This study aims at better understanding the damage and fracture kinetics in flax fibre elements at both the unitary and bundle scales, using an experimental setup allowing optical observation at high recording rate in the course of tensile loading. Defects and issues from flax unitary fibre extraction are quantitated using polarized light microscopy. Tensile loading is conducted according to a particular setup, adapted to fibres of 10 to 20 µm in diameter and 10 mm in length. Optical recording using a high-spe… Show more

“…Other defects, such as fibre misalignment, resin rich areas and the presence of large pores are the result of the consolidation process. Among these defects, pores are one of the main factors influencing their mechanical performance [21,22]. Figure 4 highlights the three types of pores contained in the 6 analysed specimens.…”

Impact of flax fibre micro-structural features on composite damage observed through micro-CT characterisation

“…Other defects, such as fibre misalignment, resin rich areas and the presence of large pores are the result of the consolidation process. Among these defects, pores are one of the main factors influencing their mechanical performance [21,22]. Figure 4 highlights the three types of pores contained in the 6 analysed specimens.…”

Impact of flax fibre micro-structural features on composite damage observed through micro-CT characterisation