Add to ORKGPrevious work has shown that electrospun nanofibers can significantly improve the interlaminar fracture toughness of fiber reinforced composites. In this work the effect of the morphology of the toughening polymer is analysed by incorporating five different polycaprolactone (PCL) structures (nanofibers, microfibers, microspheres, dense films and PCL spray coated glass fibres) in the interlaminar regions (van der Heijden, 2016)
In this study, the impact response of glass/epoxy laminates interleaved by Polycaprolactone (PCL) na...
Featured Application The present findings may find application in manufactured composite material fo...
In this study the effect of interleaved nanofiber on mode I and mode II fracture response of composi...
Previous work has shown that electrospun nanofibers can significantly improve the interlaminar fract...
Delamination and brittle matrix fracture has since long been a problem of fibre reinforced composite...
Fiber reinforced polymer composite laminates have become a standard material in applications were a ...
Electrospun nanofibre interleaving has a great potential for toughening of composite laminates as an...
AbstractInherent brittleness of epoxy in composite laminates restricted their application in many in...
Today, fiber-reinforced polymer composites are a standard material in applications where a high stif...
In this study, the effects of interleaved nanofibre veils on the Mode I and Mode II interlaminar fra...
Fiber reinforced polymer composites are the go-to materialfor designing applications thatrequire a h...
Phase-separated blends of epoxy and poly(ε-caprolactone) (PCL) provide crack repair in composites af...
Delamination between reinforcing plies is one of the most important failure mechanisms encountered i...
The present article overcomes existing challenges in inter-laminar toughening of novel multifunction...
This paper presents an investigation on fracture behavior of carbon/epoxy composite laminates interl...
In this study, the impact response of glass/epoxy laminates interleaved by Polycaprolactone (PCL) na...
Featured Application The present findings may find application in manufactured composite material fo...
In this study the effect of interleaved nanofiber on mode I and mode II fracture response of composi...
Previous work has shown that electrospun nanofibers can significantly improve the interlaminar fract...
Delamination and brittle matrix fracture has since long been a problem of fibre reinforced composite...
Fiber reinforced polymer composite laminates have become a standard material in applications were a ...
Electrospun nanofibre interleaving has a great potential for toughening of composite laminates as an...
AbstractInherent brittleness of epoxy in composite laminates restricted their application in many in...
Today, fiber-reinforced polymer composites are a standard material in applications where a high stif...
In this study, the effects of interleaved nanofibre veils on the Mode I and Mode II interlaminar fra...
Fiber reinforced polymer composites are the go-to materialfor designing applications thatrequire a h...
Phase-separated blends of epoxy and poly(ε-caprolactone) (PCL) provide crack repair in composites af...
Delamination between reinforcing plies is one of the most important failure mechanisms encountered i...
The present article overcomes existing challenges in inter-laminar toughening of novel multifunction...
This paper presents an investigation on fracture behavior of carbon/epoxy composite laminates interl...
In this study, the impact response of glass/epoxy laminates interleaved by Polycaprolactone (PCL) na...
Featured Application The present findings may find application in manufactured composite material fo...
In this study the effect of interleaved nanofiber on mode I and mode II fracture response of composi...