Luke Scharber scite author profile

This study measured the compression after impact strength of IM7 carbon fiber laminates made from epoxy resins with various mode I and mode II toughness values to observe the effects of these toughness values on the resistance to damage formation and subsequent residual compression strength-carrying capabilities. A total of seven different epoxy resin systems were used ranging in approximate GI values of 245–665 J/m2 and approximate GII values of 840–2275 J/m2. The results for resistance to impact damage formation showed that there was a direct correlation between GII and the planar size of damage as measured by thermography. Subsequent residual compression strength testing suggested that GI had no influence on the measured values and most of the difference in compression strength was directly related to the size of damage. Thus, delamination growth assumed as an opening type of failure mechanism does not appear to be responsible for the loss of compression strength.

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Luke Scharber

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The Influence of G_I and G_II on the compression after impact strength of carbon fiber/epoxy laminates

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Luke Scharber

Solar powered unmanned aerial vehicle for continuous flight: Conceptual overview and optimization

The Influence of GI and GII on the compression after impact strength of carbon fiber/epoxy laminates

Contact Info

Product

Resources

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The Influence of G_I and G_II on the compression after impact strength of carbon fiber/epoxy laminates