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ABSTRACT
Indented patterns, about 40 μm wide and 30 μm deep, were created by pressing down a hardened steel file onto the surface of steel substrates using Instron test machine. We examined the penetration of epoxy into those micro-indented patterns and their interactions with Kevlar fibres (diameter of around 12 μm), and their influences on the shear strength of epoxy adhesive joints. To ensure complete wetting of the patterned substrate surface, resin pre-coating was applied first. Three different acetone/resin (without hardener) solutions were prepared for this purpose: they contained 1 wt%, 3 wt% and 5 wt% of resin in acetone, respectively. For the purpose of comparison, plain steel substrates polished by #120 sandpaper were also prepared. It had been found that the patterned substrate coated by the 3 wt% resin/acetone solution yielded the highest shear strength, showing about 20% improvement in comparison with that of polished steel substrates. Only limited Kevlar fibres were found within the indented patterns due to their relatively large spacing and shallowness, and, furthermore, due to the random fibre distribution of Kevlar fibres of around 14 mm in length. The limited Kevlar fibre bridging activities were reflected by only around 4% improvement in the shear strength.
Acknowledgements
Financial support from the China Scholarship Council (201306565024) is gratefully acknowledged. The authors also would like to thank the UWA Centre of Microscopy to the SEM study, UWA Engineering Faculty Workshop for assistant in sample preparation, and Professor Tim Sercombe for assistance and training of Instron testing.