L. Flandin et al., AC electrical properties as a sensor of the microstructural evolution in nanocomposite materials: experiment and simulation, MODEL SIM M, 7(5), 1999, pp. 865-874
This work deals with the AC electrical properties measurements under large
strain of composites strongly contrasted in the viewpoint of their electric
al and mechanical properties. First, the possibility to model a strongly he
terogeneous material (from the viewpoint of electrical properties) using an
improvement of a RC-type model is explored; this model relates the R and C
values to the geometrical characteristics of the network of reinforcing fi
bres. Secondly, a powerful method is developed to characterize the filler r
earrangement by measuring the electrical properties. It is concluded that t
he evolution of the real part of the conductivity is related to the damage
of the percolating network, whereas the imaginary part of the conductivity
reflects the global rearrangement of the filler in the matrix under large s
train.