| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 775049 | Engineering Fracture Mechanics | 2013 | 12 Pages |
We study variation in measured interface fracture toughness values for three substrate micro-scale surface morphologies taking into account aging. Wedge indentation is used when preparing pre-cracks. The notched coating adhesion test (NCA) is applied to drive the crack along the interface and specimen-wise residual stresses are accounted for. The interfaces suffer short-term aging regardless of the morphology, leading to an even 80% decrease in fracture toughness. Sharp roughness shapes are suggested as the factor for random-like variation for the specimens with nitric acid etched substrates. Electropolishing treatment leads to less variation, but the fracture toughness values are already low after 10–15 days of storage.
► We analyze three-phased interface crack propagation according to strain-rate data. ► Toughness variation is greatest for interfaces with sharp shapes on substrates. ► AISI 304-epoxy interfaces suffer a systematic decrease in toughness due to a short-term aging. ► AISI 304 substrate micro-roughness does not affect the aging of the interface.
