How does surface integrity of nanostructured surfaces induced by severe plastic deformation influence fatigue behaviors of Al alloys with enhanced precipitation?

Pierre Maurel; Laurent Weiss; Thierry Grosdidier; Philippe Bocher

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How does surface integrity of nanostructured surfaces induced by severe plastic deformation influence fatigue behaviors of Al alloys with enhanced precipitation?

机译：严重塑性变形诱导的纳米结构表面的表面完整性如何影响增强沉淀的Al合金的疲劳行为？

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Effects on fatigue behaviors and microstructures of Surface Mechanical Attrition Treatment (SMAT) before or after precipitation aging have been investigated on two hardenable Al alloys. The aluminum alloy with high notch sensitivity (7075) should not be processed by SMAT as the generated low surface integrity is always detrimental to fatigue performances. On less notch sensitive alloys (2024), SMAT before aging formed smaller and denser precipitates, resulting in a high hardened depth, and microstructures more resistant to residual stress relaxation than after conventional shot-peening. SMAT after aging resulted in a significant improvement of fatigue performance with only subsurface crack nucleation sites.

机译：在两个可硬化的Al合金中研究了沉淀老化之前或之后表面机械研磨处理（SMAT）的疲劳行为和微观结构的影响。随着产生的低表面完整性总是不利于疲劳性能，不应通过SMAT加工铝合金（7075）。在较少的凹口敏感合金（2024）上，在老化形成较小和更密集的沉淀之前的SmAT，导致高硬化深度，并且比常规喷丸在常规射击之后更高的固化深度和微观结构更耐残留。老化后的SMAT导致疲劳性能显着提高，只有地下裂缝成核位点。

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来源
《International Journal of Fatigue》 |2020年第11期|105792.1-105792.12|共12页
作者
Pierre Maurel; Laurent Weiss; Thierry Grosdidier; Philippe Bocher;
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作者单位

Universite de Lorraine Laboratoire LEM 3 UMR CNRS 7239 7 Rue Felix Savart 57073 Metz France Laboratoire d'Optimisation des Procedes de Fabrication Avances (LOPFA) Ecole de Technologie Superieure 1100 rue Notre-Dame Ouest Montreal QC H3C 1K3 Canada LABoratoire d'EXcellence 'Design of Alloy Metals for low-mAss Structures' (LABEX-DAMAS) 7 rue Felix Savart 57073 Metz France;

Universite de Lorraine Laboratoire LEM 3 UMR CNRS 7239 7 Rue Felix Savart 57073 Metz France;

Universite de Lorraine Laboratoire LEM 3 UMR CNRS 7239 7 Rue Felix Savart 57073 Metz France LABoratoire d'EXcellence 'Design of Alloy Metals for low-mAss Structures' (LABEX-DAMAS) 7 rue Felix Savart 57073 Metz France;

Laboratoire d'Optimisation des Procedes de Fabrication Avances (LOPFA) Ecole de Technologie Superieure 1100 rue Notre-Dame Ouest Montreal QC H3C 1K3 Canada;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Severe Plastic Deformation (SPD); Aluminium; High cycle fatigue; Surface Mechanical Attrition Treatment; (SMAT); Precipitation aging; Duplex treatment;

机译：严重塑性变形（SPD）;铝;高周疲劳;表面机械磨损处理;（smat）;降水老化;双工治疗;

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1. The effects of combination of severe plastic deformation and Shot Peening surface treatment on fatigue behavior of 6082 aluminum alloy [J] . Mohammadi S., Irani M., Taheri A. Karimi Russian Journal of Non-Ferrous Metals . 2015,第2期

机译：塑性变形和喷丸表面处理相结合对6082铝合金疲劳行为的影响
2. Enhanced grain refinement due to deformation-induced precipitation during ambient-temperature severe plastic deformation of an Al-7 percent Si alloy [J] . J.M. Garcia-Infanta, S. Swaminathan, C.M. Cepeda-Jimenez Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2009,第1a2期

机译：Al-7％Si合金在环境温度下剧烈塑性变形期间由于形变引起的析出而增强的晶粒细化
3. Surface integrity of nickel-based alloys subjected to severe plastic deformation by abusive drilling [J] . Rachid MSaoubi, Dragos Axinte, Christopher Herbert, CIRP Annals . 2014,第1aCDaROM期

机译：镍基合金的表面完整性受到滥用钻孔的严重塑性变形的影响
4. MECHANICAL AND SURFACE FUNCTIONALITIES OF NANOSTRUCTURED β-TYPE TITANIUM ALLOYS THROUGH SEVERE PLASTIC DEFORMATION [C] . Hakan Yilmazer, Mtsuo Niinomi, Ken Cho World Conference on Titanium . 2016

机译：纳米结构β型钛合金通过严重塑性变形的机械和表面官能团
5. Improving the Plasticity of Metallic Glass through Heterogeneity Induced by Electropulsing-Assisted Surface Severe Plastic Deformation [D] . Chi, Ma. 2019

机译：通过电动辅助表面严重塑性变形诱导的异质性提高金属玻璃的可塑性
6. Surface Nanocrystallization and Amorphization of Dual-Phase TC11 Titanium Alloys under Laser Induced Ultrahigh Strain-Rate Plastic Deformation [O] . Sihai Luo, Liucheng Zhou, Xuede Wang, 2018

机译：激光诱导超高应变速率塑性变形下双相TC11钛合金的表面纳米化和非晶化
7. How does surface integrity of nanostructured surfaces induced by severe plastic deformation influence fatigue behaviors of Al alloys with enhanced precipitation? [O] . Pierre Maurel, Laurent Weiss, Thierry Grosdidier, 2020

机译：严重塑性变形诱导的纳米结构表面的表面完整性如何影响增强沉淀的Al合金的疲劳行为？

How does surface integrity of nanostructured surfaces induced by severe plastic deformation influence fatigue behaviors of Al alloys with enhanced precipitation?

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