Abstract:
Experimental investigations are carried out to analyse the wetting behaviour of
carbon nanotube (CNT) coated carbon fiber to determine their suitability to process carbon
nanotube coated carbon fiber/polymer multiscale composites for structural applications. To
overcome the problem of agglomeration, CNTs are grown directly on the surface of carbon
fibers as well as fabric using thermal chemical vapour deposition (CVD) technique. The term
multiscale is used because different reinforcement mechanisms operate at the scale of long
fibers and CNTs which are of few micrometers
in
length. The load carrying capacity of these
multiscale composites critically depends on the efficiency and extent of load transfer from low
strength matrix to high strength fiber which in turn depends on the interfacial strength between
CNT coated carbon fiber and polymer matrix. A systematic analysis of wetting behaviour of
CNT coated carbon fiber with epoxy and polyester matrix is carried out in this study. It is
shown that CNT coated carbon fibers as well as fabric show better wettability with epoxy
matrix as compared to polyester matrix. This results in stronger interface
of
CNT coated
carbon fiber with epoxy as compared to polyester in multiscale composite system. A similar
observation is made in nanoindentation testing of single fiber multiscale composites processed
with epoxy and polyester matrix. In addition, it is observed that wettability, interfacial strength
and average properties of CNT coated carbon fiber/polymer composites are a function of CNT density on the surface of carbon fibers.