Christopher S. Grimmer scite author profile

The present work shows that the addition of small volume fractions of multi-walled carbon nanotubes (CNTs) to the matrix results in a significant increase in the high-cycle fatigue life. It is proposed that carbon nanotubes tend to inhibit the formation of large cracks by nucleating nano-scale damage zones. In addition, the contribution to energy absorption from the fracture of nanotubes bridging across nano-scale cracks and from nanotube pull-out from the matrix are mechanisms that can improve the fatigue life. An energy-based model was proposed to estimate the additional strain energy absorbed in fatigue. The distributed nanotubes in the matrix appear to both distribute damage as well as inhibit damage propagation resulting in an overall improvement in the fatigue strength of glass fiber composites.

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A CPV Thesis

Schultz¹,

Ghosh²,

Grimmer³

et al. 2011

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Christopher S. Grimmer

High-cycle fatigue of hybrid carbon nanotube/glass fiber/polymer composites

Enhancement of delamination fatigue resistance in carbon nanotube reinforced glass fiber/polymer composites

High-cycle fatigue life extension of glass fiber/polymer composites with carbon nanotubes

A CPV Thesis

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