Corrosion degradation of aluminium alloys using a computational framework

Tribology and Materials Pub Date : 1900-01-01 DOI:10.46793/tribomat.2022.019

Zaigham Saeed Toor, Muhammad Moaaz Zafar

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引用次数: 3

Abstract

The paper describes the corrosion based degradation of aluminium alloys using an analytical and numerical framework. The corrosion rate was calculated using analytical equations for aluminium sheets subjected to a corrodent. Parametric analysis for the pit morphology, diameter, depth and distribution on the plate was conducted using finite element analysis. A comparison between elliptical and circular pits of the same area was also made for stress magnification using numerical analysis. It was observed that the stress generated at constant load when a specimen corrodes due to pitting is directly proportional to the pit diameter and pit depth. Zigzag pit morphologies due to the combined effect of mechanical degradation and corrosion have the highest stress at the corners of the pattern, while circular pits have the highest stress at the centre of the pit. The zigzag pit morphology has more detrimental effects than circular pits. For multiple distributed pits, the pits closer to the specimen edges exhibit higher stress values than those near the centre of the specimen. The effect of multiple or quantitatively increased number of pits having smaller geometric properties has a more detrimental effect than a single pit with larger geometric attributes.

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基于计算框架的铝合金腐蚀退化

本文采用解析和数值框架描述了铝合金的腐蚀退化。用解析方程计算了受腐蚀的铝板的腐蚀速率。采用有限元方法对板上凹坑的形貌、直径、深度和分布进行了参数化分析。采用数值分析方法对相同面积的椭圆坑和圆形坑进行了应力放大比较。结果表明，在恒载条件下，试样因点蚀而发生腐蚀时所产生的应力与坑直径和坑深成正比。由于机械退化和腐蚀的共同作用，锯齿形凹坑在图案的角落处应力最大，而圆形凹坑在凹坑的中心处应力最大。锯齿形坑比圆形坑的危害更大。对于多个分布的凹坑，靠近试样边缘的凹坑比靠近试样中心的凹坑表现出更高的应力值。具有较小几何属性的多个或数量增加的坑的影响比具有较大几何属性的单个坑的影响更有害。

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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Tribology and Materials

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