Electrochemical migration behavior between Cu and Ag under a thin electrolyte layer containing chloride

IF 2.3 4区材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING

Anti-corrosion Methods and Materials Pub Date : 2024-02-14 DOI:10.1108/acmm-11-2023-2924

Lu Luo, Kang Qi, Hualiang Huang

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引用次数: 0

Abstract

Purpose

The purpose of this paper is to investigate the effects of chloride ion concentration and applied bias voltage on the electrochemical migration (ECM) behavior between Cu and Ag under an NaCl thin electrolyte layer (TEL).

Design/methodology/approach

A self-made experimental setup for the ECM behavior between Cu and Ag was designed. An HD video measurement microscopy was used to observe the typical dendrite/corrosion morphology and pH distribution. Short-circuit time (SCT), short-circuit current density and the influence of the galvanic effect between Cu and Ag on their ECM behavior were studied by electrochemical tests. The surface morphology and composition of dendrite were characterized by FESEM/EDS.

Findings

The SCT increased with increasing NaCl concentration but decreased with increasing applied bias voltage, and the SCT between Cu and Ag was less than that between Cu and Cu because their galvanic effect accelerated the dissolution and migration of Cu. When NaCl concentration was less than or equal to 6 mmol/L, cedar-like dendrite was formed, whereas no dendrite formed and only precipitation occurred at high chloride ion concentration (100 mmol/L). The composition of the dendrite between Cu and Ag was copper.

Research limitations/implications

The significance of this study is to clarify the ECM failure mechanism of printed circuit board (PCB) with an immersion silver surface finish (PCB-ImAg).

Practical implications

This study provides a basic theoretical basis for the selection of protective measures and metal coatings for PCB.

Social implications

The social implication of this study is to predict the service life of PCB.

Originality/value

The ECM behavior of dissimilar metals under a TEL was investigated, the influence of the galvanic effect between them on their ECM was discussed, and the SCT increased with increasing NaCl concentration.

查看原文本刊更多论文

含氯化物的薄电解质层下铜和银之间的电化学迁移行为

目的本文旨在研究氯离子浓度和外加偏置电压对 NaCl 薄电解质层（TEL）下铜和银之间的电化学迁移（ECM）行为的影响。使用高清视频测量显微镜观察典型的树枝状晶/腐蚀形态和 pH 值分布。通过电化学测试研究了短路时间（SCT）、短路电流密度以及铜和银之间的电偶效应对其 ECM 行为的影响。结果SCT 随 NaCl 浓度的增加而增加，但随施加的偏置电压的增加而减少，Cu 和 Ag 之间的 SCT 小于 Cu 和 Cu 之间的 SCT，因为它们之间的电化效应加速了 Cu 的溶解和迁移。当 NaCl 浓度小于或等于 6 mmol/L 时，会形成雪松状枝晶；而当氯离子浓度较高（100 mmol/L）时，则不会形成枝晶，只会出现沉淀。研究的局限性/意义本研究的意义在于阐明具有浸银表面处理（PCB-ImAg）的印刷电路板（PCB）的 ECM 失效机理。社会意义本研究的社会意义在于预测 PCB 的使用寿命。原创性/价值研究了异种金属在 TEL 下的 ECM 行为，讨论了它们之间的电偶效应对其 ECM 的影响，并讨论了 SCT 随 NaCl 浓度的增加而增加的问题。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Anti-corrosion Methods and Materials 工程技术-冶金工程

CiteScore

2.80

自引率

16.70%

发文量

审稿时长

13.5 months

期刊介绍： Anti-Corrosion Methods and Materials publishes a broad coverage of the materials and techniques employed in corrosion prevention. Coverage is essentially of a practical nature and designed to be of material benefit to those working in the field. Proven applications are covered together with company news and new product information. Anti-Corrosion Methods and Materials now also includes research articles that reflect the most interesting and strategically important research and development activities from around the world. Every year, industry pays a massive and rising cost for its corrosion problems. Research and development into new materials, processes and initiatives to combat this loss is increasing, and new findings are constantly coming to light which can help to beat corrosion problems throughout industry. This journal uniquely focuses on these exciting developments to make essential reading for anyone aiming to regain profits lost through corrosion difficulties. • New methods, materials and software • New developments in research and industry • Stainless steels • Protection of structural steelwork • Industry update, conference news, dates and events • Environmental issues • Health & safety, including EC regulations • Corrosion monitoring and plant health assessment • The latest equipment and processes • Corrosion cost and corrosion risk management.