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Impact of Carbon Nanoparticles on Fatigue Properties and Damage Mechanisms of Carbon Fibre-Reinforced Epoxy
von Julia B. Kosmann, herausgegeben von Bodo FiedlerTo further improve fatigue perfomance of carbon fibre reinforced epoxy (CFRP) in this thesis carbon
nanoparticles are introduced into the polymer matrix. Unmodified and modified CFRP laminates are
prepared by an in-house prepreg technique and the impact of nanoparticle size and structure is
tested by using two types of carbon nanoparticles: multiwalled carbon nanotubes and few layered
graphene. In quasi-static and cyclic loading tests mechanical behaviour and damage development is
compared for all configurations revealing a substantial fatigue life improvement by enhancement of
the energy absorbing capacity of modified CFRP. However, nanoparticle structure and mode of loading
in defining the magnitude of the achievable improvement.
nanoparticles are introduced into the polymer matrix. Unmodified and modified CFRP laminates are
prepared by an in-house prepreg technique and the impact of nanoparticle size and structure is
tested by using two types of carbon nanoparticles: multiwalled carbon nanotubes and few layered
graphene. In quasi-static and cyclic loading tests mechanical behaviour and damage development is
compared for all configurations revealing a substantial fatigue life improvement by enhancement of
the energy absorbing capacity of modified CFRP. However, nanoparticle structure and mode of loading
in defining the magnitude of the achievable improvement.