@article{Vine:2001:10.1080/00218460108030735,
author = {Vine, K and Cawley, P and Kinloch, AJ},
doi = {10.1080/00218460108030735},
journal = {Journal of Adhesion},
pages = {125--161},
title = {The correlation of non-destructive measurements and toughness changes in adhesive joints during environmental attack},
url = {http://dx.doi.org/10.1080/00218460108030735},
volume = {77},
year = {2001}
}

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TY  - JOUR
AB  - Normal-incidence ultrasonic scans have been conducted on two- and three-layer adhesive-joint specimens exposed to water at 50°C for periods of up to 18 months. The joints consisted of aluminium-alloy adherends which were subjected to one of four different surface pretreatments prior to being coated (for the two-layer specimens) or bonded (for the three-layer specimens) with an epoxy polymer. The four commonly used pretreatments which were investigated were a grit-blast, a chromic-acid etch (CAE), a chromic-acid anodise (CAA) and a phosphoric-acid anodise (PAA). Techniques have been developed to measure the fracture toughness, Gc, of the specimens before and after water exposure such that fracture toughness maps could be ascertained, where the measured values of Gc may be assigned to spatially discrete positions within the specimens. The relative performance of the different pretreatments used in the present work followed that expected from the literature: the chromic-acid anodised (CAA) surface pretreatment giving the most durable two- and three-layer specimens and the grit-blasting pretreatment giving the least durable. In the two-layer specimens, the ultrasonic inspections detected two main types of defects: corrosion-driven edge-disbonds and micro-defects. The edge-disbonding mechanism usually started at an unsealed flush edge, and was initiated by a region of corrosion which developed on the edge of the specimen and which undercut the epoxy layer. Edge-disbonds were easily and accurately detected ultrasonically. Micro-defects were detected in regions remote from the edges and these small-scale, isolated defects took several forms. In the case of the three-layer joint specimens, only edge-disbonds could be detected ultrasonically. Nevertheless, in some of the three-layer joints which were attacked and weakened by ingressing water, the failure surfaces suggested that micro-defects were present. For both the two- and the three-layer specimens, the results from
AU  - Vine,K
AU  - Cawley,P
AU  - Kinloch,AJ
DO  - 10.1080/00218460108030735
EP  - 161
PY  - 2001///
SN  - 1545-5823
SP  - 125
TI  - The correlation of non-destructive measurements and toughness changes in adhesive joints during environmental attack
T2  - Journal of Adhesion
UR  - http://dx.doi.org/10.1080/00218460108030735
UR  - http://hdl.handle.net/10044/1/23730
VL  - 77
ER  - 

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