Nanoscale heterogeneities dictate corrosion pathways in a high-strength aluminum alloy

IF 6.6 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY npj Materials Degradation Pub Date : 2024-10-03 DOI:10.1038/s41529-024-00520-3
S. Choudhary, R. G. Kelly
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Abstract

Micro-segregation and resulting nanoscale microstructural heterogeneities are unavoidable in wrought 7xxx aluminum alloys produced using current casting and thermomechanical processes. This study demonstrates that these nanoscale heterogeneities significantly impact pit growth in an extruded, age-hardened aluminum alloy 7075-T651. The alloy exhibits a complex microstructure with heterogeneously distributed E-Al18Mg3Cr2 dispersoids, which promote the precipitation of coarse ƞ-Mg(ZnAlCu)2 nanoparticles resulting in the formation of solute-depleted regions both within the grain interior and along the grain boundaries in dispersoid-rich areas. These alterations affect resistance to pit growth at the nanoscale, governing the transition of micro-galvanic sites into large pits with potential for crack initiation. This work underscores the necessity for modifying alloy composition and casting processes to develop superior aluminum alloys for critical applications.

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纳米级异质性决定了高强度铝合金的腐蚀途径
在使用当前铸造和热机械工艺生产的锻造 7xxx 铝合金中,微偏析和由此产生的纳米级微结构异质性是不可避免的。本研究表明,这些纳米级异质性会严重影响挤压时效硬化铝合金 7075-T651 中凹坑的生长。该合金具有复杂的微观结构,其中 E-Al18Mg3Cr2 分散体分布不均,可促进粗ƞ-Mg(ZnAlCu)2 纳米颗粒的沉淀,从而在晶粒内部和分散体富集区的晶界上形成溶质贫化区。这些变化影响了纳米尺度的凹坑生长阻力,制约着微电镀点向大凹坑的过渡,并可能导致裂纹的产生。这项研究强调了改变合金成分和铸造工艺的必要性,以开发出适用于关键应用的优质铝合金。
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来源期刊
npj Materials Degradation
npj Materials Degradation MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.80
自引率
7.80%
发文量
86
审稿时长
6 weeks
期刊介绍: npj Materials Degradation considers basic and applied research that explores all aspects of the degradation of metallic and non-metallic materials. The journal broadly defines ‘materials degradation’ as a reduction in the ability of a material to perform its task in-service as a result of environmental exposure. The journal covers a broad range of topics including but not limited to: -Degradation of metals, glasses, minerals, polymers, ceramics, cements and composites in natural and engineered environments, as a result of various stimuli -Computational and experimental studies of degradation mechanisms and kinetics -Characterization of degradation by traditional and emerging techniques -New approaches and technologies for enhancing resistance to degradation -Inspection and monitoring techniques for materials in-service, such as sensing technologies
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