压舱物
腐蚀
复制
协议(科学)
加速度
沉浸式(数学)
海洋工程
环境科学
持续时间(音乐)
模拟
工程类
材料科学
冶金
电气工程
物理
数学
病理
统计
经典力学
医学
纯数学
替代医学
声学
作者
R. Willemen,Kris De Baere,Rob Baetens,Maarten Van Rossum,Silvia Lenaerts
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2024-05-13
卷期号:17 (10): 2304-2304
摘要
In the realm of accelerated testing within controlled laboratory settings, the fidelity of the service environment assumes paramount importance. It is imperative to replicate real-world conditions while compressing the testing duration to facilitate early evaluations, thereby optimizing time and cost efficiencies. Traditional immersion protocols, reflective solely of full ballast tank conditions, inadequately expedite the corrosion process representative of an average ballast tank environment. Through the integration of immersion with fog/dry conditions, aligning the test protocol more closely with the internal conditions of an average ballast tank, heightened rates of general corrosion are achieved. This augmentation yields an acceleration factor of 7.82 times the standard test duration, under the assumption of a general corrosion rate of 0.4 mm/year for uncoated ballast tank steel, with both sides exposed. Subsequently, the fog/dry test protocol, albeit only resembling the environment of an empty ballast tank, closely trails in terms of acceleration efficacy. The fog/dry test protocol offers cost-effectiveness and replicability compared to the AMACORT CIFD-01 protocol, making it a strong competitor despite the relatively close acceleration factor.
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