Delamination and brittle matrix fracture has since long been a problem of fibre reinforced composites. This paper investigates if polycaprolactone (PCL) nanofibre nonwovens can increase the interlaminar fracture toughness of resin transfer moulded glass fibre/epoxy laminates, without causing problems during impregnation and without negatively affecting other (mechanical) properties. The mode I fracture toughness was shown to be dependent on both the nanofibre content as well as on how the nanofibres were introduced into the laminates. Almost 100% improvement in fracture toughness could be achieved by electrospinning the PCL nanofibres on both sides of the glass fibre mats prior to impregnation. This led to a mode I fracture toughness of ove...
Electrospun nanofibre interleaving has a great potential for toughening of composite laminates as an...
Cellulose nanofibers (CNFs) were used to improve the fracture toughness of glass fiber reinforced ep...
The interlaminar toughening of a carbon-fibre reinforced composite by incorporation of electrospun p...
Delamination and brittle matrix fracture has since long been a problem of fibre reinforced composite...
Today, fiber reinforced polymer composites are a standard material in applications where a high stif...
Phase-separated blends of epoxy and poly(ε-caprolactone) (PCL) provide crack repair in composites af...
AbstractInherent brittleness of epoxy in composite laminates restricted their application in many in...
In this study the effect of interleaved nanofiber on mode I and mode II fracture response of composi...
Delamination is the most frequent failure mode in thermoset-based composite laminates which can be e...
Delamination between reinforcing plies is one of the most important failure mechanisms encountered i...
Fiber reinforced polymer composite laminates have become a standard material in applications were a ...
In this study, the impact response of glass/epoxy laminates interleaved by Polycaprolactone (PCL) na...
Fiber reinforced laminate are widely used in aerospace, automobile and marine industries, despite it...
Many literature is available on the use ofnanofibres for tissue engineering, (bio)mcdicaJ applicatio...
This paper presents an investigation on fracture behavior of carbon/epoxy composite laminates interl...
Electrospun nanofibre interleaving has a great potential for toughening of composite laminates as an...
Cellulose nanofibers (CNFs) were used to improve the fracture toughness of glass fiber reinforced ep...
The interlaminar toughening of a carbon-fibre reinforced composite by incorporation of electrospun p...
Delamination and brittle matrix fracture has since long been a problem of fibre reinforced composite...
Today, fiber reinforced polymer composites are a standard material in applications where a high stif...
Phase-separated blends of epoxy and poly(ε-caprolactone) (PCL) provide crack repair in composites af...
AbstractInherent brittleness of epoxy in composite laminates restricted their application in many in...
In this study the effect of interleaved nanofiber on mode I and mode II fracture response of composi...
Delamination is the most frequent failure mode in thermoset-based composite laminates which can be e...
Delamination between reinforcing plies is one of the most important failure mechanisms encountered i...
Fiber reinforced polymer composite laminates have become a standard material in applications were a ...
In this study, the impact response of glass/epoxy laminates interleaved by Polycaprolactone (PCL) na...
Fiber reinforced laminate are widely used in aerospace, automobile and marine industries, despite it...
Many literature is available on the use ofnanofibres for tissue engineering, (bio)mcdicaJ applicatio...
This paper presents an investigation on fracture behavior of carbon/epoxy composite laminates interl...
Electrospun nanofibre interleaving has a great potential for toughening of composite laminates as an...
Cellulose nanofibers (CNFs) were used to improve the fracture toughness of glass fiber reinforced ep...
The interlaminar toughening of a carbon-fibre reinforced composite by incorporation of electrospun p...
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