Recent Advances in Reactive Monitoring of Air Corrosivity

2019 Pan Pacific Microelectronics Symposium (Pan Pacific) Pub Date : 2019-02-01 DOI:10.23919/PANPACIFIC.2019.8696754

Prabjit Singh, L. Palmer, H. Fu, Dem Lee, J. Lee, Karlos Guo, J. Liu, Simon Lee, Geoffrey Tong, Chen Xu

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引用次数: 1

Abstract

Knowledge of the rates at which an atmosphere will corrode metals has benefits. Corrosion rate is an indirect, though reliable indication of the concentrations of corrosive gases in the air. Today’s data centers require that for computers to work reliably, the corrosion rates of copper and silver foils, in terms of the rates of growth of corrosion products, be less than 300 and 200 Å/month, respectively. One of the industry standard size of metal foils used for reactive monitoring of air corrosivity is 25x50 mm. The thickness of the corrosion products on the foils is measured using coulometric reduction. The other means of measuring corrosion rates is electrical resistance increase of metal serpentine thin films. Serpentine thin films have smaller surface areas, finer grain sizes and higher mechanical stresses compared to metal foils. Both these factors increase corrosion rates. This paper compares the corrosion rates of metal films and foils. The corrosion rates of two different area metal foils were measured using coulometric reduction and compared with the corrosion rates of metal serpentine thin films using resistance increase and coulometric reduction techniques.

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空气腐蚀性反应监测的新进展

了解大气腐蚀金属的速率是有益的。腐蚀速率是空气中腐蚀性气体浓度的一种间接但可靠的指示。今天的数据中心要求计算机可靠地工作，就腐蚀产物的增长速度而言，铜箔和银箔的腐蚀速度分别小于300和200 Å/月。用于空气腐蚀性反应性监测的金属箔的工业标准尺寸之一是25x50mm。用库仑还原法测量了箔上腐蚀产物的厚度。另一种测量腐蚀速率的方法是金属蛇形薄膜电阻的增加。与金属箔相比，蛇形薄膜具有更小的表面积，更细的晶粒尺寸和更高的机械应力。这两个因素都增加了腐蚀速率。本文比较了金属薄膜和金属箔的腐蚀速率。采用库仑还原法测定了两种不同面积金属箔的腐蚀速率，并与采用电阻增加法和库仑还原法测定的金属蛇纹石薄膜的腐蚀速率进行了比较。

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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2019 Pan Pacific Microelectronics Symposium (Pan Pacific)

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