P. Boinard et al., Time domain reflection dielectric spectroscopy for durability assessment of adhesively bonded composite structures, PLAS RUB C, 29(6), 2000, pp. 288-293
Over the last ten years, the potential of high frequency dielectric techniq
ues for the characterisation of adhesively bonded metallic structures has b
een extensively investigated by the co-authors. Nowadays, adhesively bonded
composite materials are increasingly used in a wide range of situations, i
ncluding applications in which they are exposed to high levels of moisture.
In bonded composite structures, water ingress can influence not only the m
echanical properties of the matrix but also those of the matrix/fibre and a
dhesive/adherent interfaces.
Evolution in the dielectric characteristics of such structures as a functio
n of exposure time can be used to monitor the changes occurring in the join
t structure. The present paper discusses the application of high frequency
dielectric spectroscopy to the study of carbon fibre reinforced plastics (C
FRP) adhesively bonded composite structures. The effects of the carbon fibr
e orientation in the bulk and at the surface of the adherent on the dielect
ric signal propagation are investigated. Measurements of the ingress of moi
sture in the adherent and the joint structure are presented. The high frequ
ency time domain reflection (TDR) analysis allows the integrity of the stru
cture to be explored and a good correlation is shown between TDR analysis a
nd gravimetric results.
Results indicate that high frequency TDR analysis of joint structure, succe
ssfully used for adhesively bonded aluminium structures, is also applicable
to CFRP bonded structures. The dielectric study not only indicates a new m
ethod of assessing the aging of such structures but also provides new insig
hts into the application of TDR measurement to non-isotropic materials.