New study demonstrates improvement in composite abrasion resistance using TFP nonwovens

A recent study on the use of TFP’s aramid nonwovens in composite surfacing applications demonstrates their effectiveness in protecting the underlying structural elements of a composite from the effects of abrasion or wear.

New study demonstrates improvement in composite abrasion resistance using TFP nonwovens

1 minute, 10 secondes

The lightweight aramid veils enable a high quality surface finish, whilst simultaneously providing a durable and sacrificial layer in applications such as high speed composite rollers, automotive friction substrates or sporting goods where the composite experiences a constant friction. This continuous wear can potentially have a detrimental impact on the performance of the composite, as well as significantly reducing the product’s lifespan.

The study carried out examines the effectiveness of using a surfacing veil to increase wear resistance by comparing composite panels fabricated both with and without TFP’s aramid veils. The panels (based on epoxy resin and woven carbon) were tested using a pin-on-disk tribometer to measure friction and wear as a function of time. The data generated demonstrates that the measured coefficient of friction is significantly lower when an aramid surfacing veil is used, taking at least 5 times as long to reach the level measured in the control. Essentially, this indicates that the level of friction experienced by the composite surface is significantly lower and less material is worn away as a result. This finding is reinforced by microscope imaging of the samples showing just damage (and no breakage) to the surface fibres and no damage to or exposure of the woven reinforcement in the composite panels containing aramid surface veil. This can be compared to evidence of significant fibre breakage and damage to the underlying carbon weave in the control panel. The findings demonstrate the importance of the aramid veil in acting as a sacrificial layer to protect the underlying reinforcement, ultimately increasing durability of the composite structure and extending its lifespan. More information on the study (including data and images) can be found on the TFP website.

More information www.tfpglobal.com