Combined nuclear microprobe and TEM study of corrosion pit nucleation by intermetallics in aerospace aluminium alloys

A.P. Boag; D.G. McCulloch; D.N. Jamieson; S.M. Hearne; A.E. Hughes; C.G. Ryan; S.K. Toh

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Combined nuclear microprobe and TEM study of corrosion pit nucleation by intermetallics in aerospace aluminium alloys

机译：航空铝合金中金属间化合物的核微探针和TEM结合研究。

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A microscopic study of the onset of pitting corrosion has been conducted on the important aerospace alloy AA2024-T3 with the aim of understanding the role of intermetallic particles in triggering the formation of deep pits in the corroding surface. By trace element and correlation mapping using a 3 MeV H~+ microprobe, it has been shown that Cu-Fe-Mn-Al particles in conjunction with S-phase particles have a high correlation with pit nucleation. Al-Cu correlation diagrams can be used to show dealloying of S-phase particles (CuMgAl_2). Transmission electron microscopy and elemental mapping were used to look at the distribution of elements, particularly Cu, within pits.

机译：对重要的航空航天合金AA2024-T3进行了点蚀开始的微观研究，目的是了解金属间化合物在触发腐蚀表面深层坑形成中的作用。通过使用3 MeV H〜+微探针进行痕量元素和相关图谱分析，已表明Cu-Fe-Mn-Al颗粒与S相颗粒结合起来与坑形核高度相关。 Al-Cu相关图可用于显示S相颗粒（CuMgAl_2）的脱合金。透射电子显微镜和元素映射用于观察坑内元素（尤其是Cu）的分布。

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来源
《Nuclear Instruments & Methods in Physics Research. B, Beam Interactions with Materials and Atoms》 |2005年第4期|p.457-462|共6页
作者
A.P. Boag; D.G. McCulloch; D.N. Jamieson; S.M. Hearne; A.E. Hughes; C.G. Ryan; S.K. Toh;
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作者单位

Applied Physics, School of Applied Science, RMIT University, G.P.O. Box 2476V, Melbourne, Vic. 3001, Australia;

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正文语种 eng
中图分类原子核物理学、高能物理学;原子能技术;
关键词
pitting corrosion; aluminium alloys; PIXE; nuclear microprobe; TEM; EELS;

机译：点蚀;铝合金;PIXE;核微探针;TEM;EELS;

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1. Dealloying-driven local corrosion by intermetallic constituent particles and dispersoids in aerospace aluminium alloys [J] . Kosari A., Tichelaar F., Visser P., Corrosion science . 2020,第Deca期

机译：通过金属间成分颗粒和航空铝合金中的分散体驱动局部腐蚀
2. Intermetallic Particles-Induced Pitting Corrosion in 6061-T651 Aluminium Alloy [J] . Kalenda Mutombo Materials science forum . 2011,第期

机译：6061-T651铝合金中金属间化合物引起的点蚀
3. The corrosion of aluminium alloy and release of intermetallic particles in nuclear reactor emergency core coolant: Implications for clogging of sump strainers [J] . Junlin Huang, Derek Lister, Shunsuke Uchida, Nuclear engineering and technology . 2019,第5期

机译：核反应堆应急堆芯冷却液中铝合金的腐蚀和金属间颗粒的释放：对油底壳滤网堵塞的影响
4. Intermetallic Particles-Induced Pitting Corrosion in 6061-T651 Aluminium Alloy [C] . Kalenda Mutombo Light metals technology V . 2011

机译：6061-T651铝合金中金属间化合物引起的点蚀
5. Microstructure and Corrosion Behaviour of Aerospace Aluminium Alloys [D] . Zhang, Xinxin. 2016

机译：航空航天铝合金的微观结构和腐蚀行为
6. Corrosion and Corrosion Protection of Additively Manufactured Aluminium Alloys—A Critical Review [O] . Reynier I. Revilla, Donovan Verkens, Tim Rubben, 2020

机译：腐蚀性和腐蚀保护含有铝合金的铝合金 - 批判性评论
7. Dealloying-driven local corrosion by intermetallic constituent particles and dispersoids in aerospace aluminium alloys [O] . A. Kosari, F. Tichelaar, P. Visser, 2020

机译：通过金属间成分颗粒和航空铝合金中的分散体驱动局部腐蚀
8. Equivalent Crack Size Modelling of Corrosion Pitting in an AA7050-T7451 Aluminium Alloy and its Implications for Aircraft Structural Integrity. [R] . Crawford, B. R., Sharp, R. K. 2012

机译：aa7050-T7451铝合金腐蚀点蚀的等效裂纹尺寸模型及其对飞机结构完整性的启示。

Combined nuclear microprobe and TEM study of corrosion pit nucleation by intermetallics in aerospace aluminium alloys

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