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Studies on Pitting Corrosion of Al-Cu-Li Alloys Part II: Breakdown Potential and Pit Initiation

机译：Al-Cu-Li合金点蚀的研究第二部分：击穿电位和基坑引发

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Prediction of the accumulated pitting corrosion damage in aluminum-lithium (Al-Li) is of great importance due to the wide application of these alloys in the aerospace industry. The Point Defect Model (PDM) is arguably one of the most well-developed techniques for evaluating the electrochemical behavior of passive metals. In this paper, the passivity breakdown and pitting corrosion performance of AA 2098-T851 was investigated using the PDM with the potentiodynamic polarization (PDP) technique in NaCl solutions at different scan rates, Cl⁻ concentrations and pH. Both the PDM predictions and experiments reveal linear relationships between the critical breakdown potential (Ec) of the alloy and various independent variables, such as

a_{C l^{-}}

and pH. Optimization of the PDM of the near-normally distributed Ec as measured in at least 20 replicate experiments under each set of conditions, allowing for the estimation of some of the critical parameters on barrier layer generation and dissolution, such as the critical areal concentration of condensed cation vacancies (ξ) at the metal/barrier layer interface and the mean diffusivity of the cation vacancy in the barrier layer (D). With these values obtained—using PDM optimization—in one set of conditions, the Ec distribution can be predicted for any other set of conditions (combinations of

a_{{Cl}^{-}}

, pH and T). The PDM predictions and experimental observations in this work are in close agreement.

机译：由于这些合金在航空航天工业中的广泛应用，因此预测铝-锂（Al-Li）中累积的点蚀腐蚀损伤非常重要。点缺陷模型（PDM）可以说是评估钝态金属电化学行为的最先进技术之一。本文采用PDM和电位动力学极化（PDP）技术在NaCl溶液中不同扫描速率，Cl ^{-浓度和pH的条件下，研究了AA 2098-T851的钝化击穿和点蚀性能。 PDM预测和实验都揭示了合金的临界击穿电位（Ec）与各种独立变量之间的线性关系，例如 $aCl-和pH。在每组条件下至少进行20次重复实验，对接近正态分布的Ec的PDM进行优化，从而可以估算一些有关势垒层生成和溶解的关键参数，例如冷凝的关键区域浓度金属/阻挡层界面处的阳离子空位（ξ）和阻挡层（D）中阳离子空位的平均扩散率。在一组条件下使用PDM优化获得这些值后，就可以预测任何其他条件下的Ec分布（aCl < / mi>-，pH和T）。在这项工作中，PDM的预测和实验观察是非常一致的。$}

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期刊名称 Materials
作者
Elmira Ghanbari; Alireza Saatchi; Xiaowei Lei; Digby D. Macdonald;
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作者单位

展开▼
年(卷),期 2019(12),11
年度 2019
页码 1786
总页数 21
原文格式 PDF
正文语种
中图分类外科学;
关键词
Al-Cu-Li alloys point defect model Al-Li alloys passivity breakdown;

机译：Al-Cu-Li合金;点缺陷模型;Al-Li合金;钝化击穿;

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专利

1. Localized corrosion: Passive film breakdown vs. Pit growth stability, Part Ⅵ: Pit dissolution kinetics of different alloys and a model for pitting and repassivation potentials [J] . Li Tianshu, Wu Jun, Frankel G. S. Corrosion science . 2021,第Apra期

机译：局部腐蚀：被动薄膜击穿与坑生长稳定性，部分ⅵ：不同合金的PIT溶出动力学和蚀力和回归潜力的模型
2. Insights on the Al-Cu-Fe-Mn intermetallic particles induced pitting corrosion of Al-Cu-Li alloy [J] . Li Meicheng, Seyeux Antoine, Wiame Frederic, Corrosion science . 2020,第Nova期

机译：Al-Cu-Fe-Mn金属间颗粒诱导Al-Cu-Li合金诱导蚀腐蚀的见解
3. A Study on the Initiation of Pitting Corrosion of Fe-17Cr Alloy Using Micro-Droplet Cell Technique [J] . Jae-Jung Kim, Jae-Bong Lee Journal of Korean Institute of Metal and Materials . 2008,第12期

机译：微滴细胞技术引发Fe-17Cr合金点蚀的研究
4. PITTING POTENTIALS OF ALUMINIUM ALLOYS AND THEIR USE TO DETERMINE THE PROBABILITY OF PITTING CORROSION [C] . Antony Trueman, Lenore Pedlrina, Jayashri Gopalakrishna Annual Conference of the Australasian Corrosion Association . 2012

机译：铝合金的蚀势及其用来确定点腐蚀的概率
5. Experimental and numerical studies of single manganese sulfide inclusions in stainless steel during initiation of pitting corrosion. [D] . Webb, Eric Geoffrey. 2001

机译：点蚀开始时不锈钢中单一硫化锰夹杂物的实验和数值研究。
6. Studies on Pitting Corrosion of Al-Cu-Li Alloys Part I: Effect of Li Addition by Microstructural Electrochemical In-situ and Pit Depth Analysis [O] . Xiaowei Lei, Alireza Saatchi, Elmira Ghanbari, 2019

机译：Al-Cu-Li合金点蚀的研究第一部分：微结构电化学原位和坑深分析对添加锂的影响
7. Studies on Pitting Corrosion of Al-Cu-Li Alloys Part I: Effect of Li Addition by Microstructural, Electrochemical, In-situ, and Pit Depth Analysis [O] . Xiaowei Lei, Alireza Saatchi, Elmira Ghanbari, 2019

机译：Al-Cu-Li合金的蚀腐蚀的研究I：Li加添加微观结构，电化学，原位和坑深度分析的影响
8. Stochastic Models of Pitting Corrosion of Stainless Steels. Part 1: Modelling of the Initiation and Growth of Pits at Constant Potential [R] . Williams, D. E., Westcott, C., Fleischmann, M. 1984

机译：不锈钢点蚀的随机模型。第1部分：恒定电位的起始和生长模型

Studies on Pitting Corrosion of Al-Cu-Li Alloys Part II: Breakdown Potential and Pit Initiation

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