Dielectric and mechanical studies of the durability of adhesively bonded aluminium structures subjected to temperature cycling. Part 2: examination of the failure process and effects of drying

Abstract: Additional dielectric measurements and mechanical tests on adhesively bonded joints are reported for bonds having been aged by complete immersion in water at 50 and 65 C and by changing between these temperatures. Dielectric frequency domain measurements are discussed in terms of the effects on the adhesive and the oxide layer as a result of water ingress to the bond line. Initially, the moisture adsorption follows a pseudo-Fickian behaviour, and correlation with the mechanical properties would suggest that th… Show more

“…21 It is expected that the fracture toughness decreases with an increase in the water content, a trend often seen in the literature. 22,23 For these tests the specimens shown in Figure 2(d) were used, and Figure 6 shows the effect of humidity on the fracture toughness of the studied adhesives. Due to the amount of time needed to fully saturate each DCB specimen the relative humidity was studied up to 60%, which already presents a very clear trend in degradation of the fracture toughness.…”

Effect of humidity on the mechanical properties of adhesively bonded aluminium joints

“…21 It is expected that the fracture toughness decreases with an increase in the water content, a trend often seen in the literature. 22,23 For these tests the specimens shown in Figure 2(d) were used, and Figure 6 shows the effect of humidity on the fracture toughness of the studied adhesives. Due to the amount of time needed to fully saturate each DCB specimen the relative humidity was studied up to 60%, which already presents a very clear trend in degradation of the fracture toughness.…”

Effect of humidity on the mechanical properties of adhesively bonded aluminium joints

“…Mode I failure was also studied by means of a cleavage/ peel test. The test was designed around ASTM D 3433-93 [17] and ASTM D 3807-93 [18] and has been discussed previously [1,2]. The load was applied using the Zwick 1445 tensile testing machine, with a constant cross-head separation rate of 3 mm/min.…”

“…High-frequency non-destructive dielectric measurements were conducted using a Hewlett Packard HP8753A network analyser connected via a HP-IB interface to a computer, scanning through the frequency range of 300 kHz to 3 GHz. The details of the measurements and the calculations have been discussed previously [1,2] as with the details for the above shear tests and Mode I failure tests.…”

“…Certain of these fluids are known to have dramatic effects on the strength of joints and others are fairly benign. In previous papers, the non-destructive dielectric monitoring of hygrothermal aging in aluminium adhesively bonded structures has been reported [1,2]. The aluminium is a good electrical conductor and the bond forms a waveguide that can be used to characterize the dielectric properties of the joint.…”

“…In this paper, a study of the aging characteristics of CFRP/epoxy/CFRP bonded structures in water and a range of other solvents systems is reported. The application of the dielectric method to the study of aging in aluminium adhesive bonds has been investigated previously [11][12][13][14][15] and it has been shown [1,2] that a correlation can be made between the change in the mechanical properties of the bond and the variation in its dielectric properties. This study attempts to explore whether a similar correlation might exist in the case of CFRP bonded structures.…”

Dielectric and mechanical studies of the durability of adhesively bonded CFRP structures subjected to aging in various solvents