1997
DOI: 10.1149/1.1837501
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Formation and Breakdown of Anodic Oxide Films on Aluminum in Boric Acid/Borate Solutions

Abstract: Highly pure aluminum was anodized at a constant current density of 25Am−2 at 293 Kin 0.5 M boric acid/0, 0.005, or 0.05 M sodium tetraborate solutions, to examine the effect of sodium tetraborate concentration on the formation and breakdown characteristics of barrier oxide films by using inductively coupled plasma atomic emission spectrometry, electroluminescence/photoluminescence measurements, scanning electron microscopy, transmission electron microscopy, and electrochemical impedance spectroscopy. In bori… Show more

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Cited by 89 publications
(48 citation statements)
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“…9a) obtained at constant current anodization in the mixed electrolyte, the uniform oxide film thickening is terminated eventually until the oxide dielectric breakdown [54,57], with visible sparking observed frequently and oxygen gas releasing over the film surface [26,58]. When the oxide dielectric breakdown occurs, the voltage reaches a maximum value ($230 V) and no longer increases.…”
Section: Reduction Of Oxide Forming Efficiency and Oxide Breakdown Phmentioning
confidence: 97%
See 1 more Smart Citation
“…9a) obtained at constant current anodization in the mixed electrolyte, the uniform oxide film thickening is terminated eventually until the oxide dielectric breakdown [54,57], with visible sparking observed frequently and oxygen gas releasing over the film surface [26,58]. When the oxide dielectric breakdown occurs, the voltage reaches a maximum value ($230 V) and no longer increases.…”
Section: Reduction Of Oxide Forming Efficiency and Oxide Breakdown Phmentioning
confidence: 97%
“…Therefore, the anodizing current J T is composed of the J ion and the J e , i.e., J T % J ion + J e , then oxide forming efficiency u % J ion /J T . In fact, oxide growth stops at the breakdown stage, thus the J ion and the forming efficiency u drop to zero [26,58]. At the moment, the J T would all transform into avalanche electronic current ($5 mA/cm 2 ).…”
Section: Reduction Of Oxide Forming Efficiency and Oxide Breakdown Phmentioning
confidence: 99%
“…Subsequent anodizing causes an increase in voltage and film thickening, and a linear relation, with a proportional constant of approximately 1.2-1.3 nmV -1 , between the anodizing voltage and the thickness of the barrier oxide under constant current anodizing has been reported [1,45]. The growth of the barrier oxide film then stops abruptly due to dielectric breakdown, with visible sparking on the specimen.…”
Section: Resultsmentioning
confidence: 98%
“…In general, anodic aluminum oxide can be classified into two different types as follows: barrier and porous oxides [1][2][3]. Aluminum anodizing in neutral solutions results in the formation of a thin dense barrier oxide that can be as thick as 1 µm on the aluminum substrate [4,5]. Barrier oxides have been widely used for electrolytic capacitor applications due to their high dielectric property [6][7][8].…”
Section: Introductionmentioning
confidence: 99%