2018
DOI: 10.1149/2.0741809jes
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Optical and Chemical Monitoring during Foil Penetration Experiments to Study Intergranular Corrosion in AA2024

Abstract: A modified version of the foil penetration technique based on an optical detection of the full penetrating intergranular defects through thin foils was applied to AA2024 samples of various thicknesses in contact with a dilute chloride solution. As the rear side of the foil was free during the experiments, it was straightforward to measure the pH of the electrolyte trapped inside the grain boundary network leaking through the emerging defects on the rear side of the foils. The penetration regime in the longitud… Show more

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Cited by 4 publications
(6 citation statements)
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“…As schematized in Figure 2, an optical detection system (digital optical microscope Keyence VHX 5000) was positioned in front of the droplet cell to detect the emergence of full penetrating IG defects in a similar way than in large scale experiments. 6,7 As it will be illustrated in the discussion of this paper, the results obtained by digital optical microscopy improved the optical resolution compared to preliminary results 8 and allowed the successive steps of the detectable events corresponding to the full penetration of selected grain boundaries to be distinguished.…”
Section: Materials and Experimental Set Upmentioning
confidence: 66%
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“…As schematized in Figure 2, an optical detection system (digital optical microscope Keyence VHX 5000) was positioned in front of the droplet cell to detect the emergence of full penetrating IG defects in a similar way than in large scale experiments. 6,7 As it will be illustrated in the discussion of this paper, the results obtained by digital optical microscopy improved the optical resolution compared to preliminary results 8 and allowed the successive steps of the detectable events corresponding to the full penetration of selected grain boundaries to be distinguished.…”
Section: Materials and Experimental Set Upmentioning
confidence: 66%
“…This very reproducible grooving was used as a "precorrosion" procedure to control the initiation of grain boundary dissolution which led to the improvement of the accuracy of the measurement of the IG propagation rate. 7 To support the beneficial effect of switching the potential to a value lower than the breakdown potential (−580mV(SCE)), potential steps at −480mV(SCE) were followed by very long maintains at −600 mV(SCE). As shown in Figure 3b (II), initial short "fissures" initiated at −480mV(SCE) widened after long exposures whereas the alloy remained still sensitive to IGC at −600mV(SCE) but at a very reduced rate as illustrated by the thin filaments ahead.…”
Section: Resultsmentioning
confidence: 99%
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“…These new codes allow the corrosion researcher to focus on defining the problem and the boundary conditions rather than searching for the best partial differential equation solver. 44,46,[51][52][53][54][55][56][57][58][59][60][61][62][63][64]…”
Section: History Of Finite Element Methods Modeling In Localized Corromentioning
confidence: 99%