Effect of friction stir processing conditions on fatigue behavior and texture development in A356-T6 cast aluminum alloy

Akiko Tajiri; Yoshihiko Uematsu; Toshifumi Kakiuchi; Yasunari Tozaki; Yosuke Suzuki; Angga Afrinaldi

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Effect of friction stir processing conditions on fatigue behavior and texture development in A356-T6 cast aluminum alloy

机译：搅拌摩擦条件对A356-T6铸造铝合金疲劳行为和组织发展的影响

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摘要

Friction stir processing (FSP) was applied to A356-T6 cast aluminum alloy to modify the microstructure and to eliminate casting defects under two different tool rotational speeds. Plane bending fatigue tests had been conducted, revealing that FSP could enhance the fatigue strength where the lower rotational speed condition gave better results. The enhancement of fatigue strength was attributed to the elimination of casting defects. Crystallographic analysis by EBSD revealed that the texture induced by FSP had detrimental effect on growth resistance. The lower rotational speed condition resulted in the weaker texture, and consequently, further increase of fatigue strength was achieved compared with the higher rotational speed condition.

机译：将摩擦搅拌工艺（FSP）应用于A356-T6铸造铝合金，以改变显微组织并消除两种不同工具转速下的铸造缺陷。进行了平面弯曲疲劳试验，结果表明，在较低的转速条件下，FSP可以提高疲劳强度。疲劳强度的提高归因于铸造缺陷的消除。 EBSD的晶体学分析表明，FSP诱导的织构对生长阻力具有有害作用。较低的转速条件导致质地较弱，因此，与较高的转速条件相比，疲劳强度进一步提高。

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来源
《International Journal of Fatigue》 |2015年第11期|192-202|共11页
作者
Akiko Tajiri; Yoshihiko Uematsu; Toshifumi Kakiuchi; Yasunari Tozaki; Yosuke Suzuki; Angga Afrinaldi;
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作者单位

Murata Machinery Ltd., 2 Nakajima, Hashizume, Inuyama, Aichi 484-8502, Japan;

Department of Mechanical Engineering, Gifu University, 1-1 Yanagido, Gifu 501-1193, Japan;

Department of Mechanical Engineering, Gifu University, 1-1 Yanagido, Gifu 501-1193, Japan;

Industrial Research Institute of Gifu Prefecture, 1288 Oze, Seki, Gifu 501-3265, Japan;

Okuma Corp., Oguchi-cho, Niwa-gun, Aichi 480-0193, Japan;

Mechanical Engineering, Andalas University, Kampus Limau Manis, Padang 25163, Indonesia;

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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
Cast aluminum alloy; Friction stir processing; Fatigue crack initiation; Fatigue crack path; Texture;

机译：铸造铝合金;搅拌摩擦加工;疲劳裂纹萌生;疲劳裂纹路径;质地;

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1. Fatigue crack paths and properties in A356-T6 aluminum alloy microstructurally modified by friction stir processing under different conditions [J] . A. Tajiri, Y. Uematsu, T. Kakiuchi, Frattura e Integrita Strutturale . 2015,第34期

机译：不同条件下搅拌摩擦加工组织改性的A356-T6铝合金的疲劳裂纹路径和性能
2. Fatigue crack paths and properties in A356-T6 aluminum alloy microstructurally modified by friction stir processing under different conditions [J] . A. Tajiri, Y. Uematsu, T. Kakiuchi, Frattura e Integrita Strutturale . 2015,第34期

机译：不同条件下搅拌摩擦加工组织改性的A356-T6铝合金的疲劳裂纹路径和性能
3. EBSD Study on Grain Boundary and Microtexture Evolutions During Friction Stir Processing of A413 Cast Aluminum Alloy [J] . Shamanian Morteza, Mostaan Hossein, Safari Mehdi, Journal of Materials Engineering and Performance . 2016,第7期

机译：EBSD研究A413铸造铝合金搅拌摩擦过程中的晶界和微观组织演变。
4. Fatigue Behavior of A356 Cast Aluminum Alloy Microstructurally Modified by Friction Stir Processing under Low Strain Rate Condition [C] . Toshifumi Kakiuchi, Yoshihiko Uematsu, Yasunari Tozaki International conference on fracture and damage mechanics . 2013

机译：低应变速率条件下搅拌摩擦组织改性的A356铸造铝合金的疲劳行为
5. Multiple pass friction stir processing for high strain rate superplasticity and the addition of nanotubes into aluminum through friction stir processing [D] . Johannes, Lucie Beth 2006

机译：多程摩擦搅拌工艺可实现高应变速率超塑性，并通过摩擦搅拌工艺将纳米管添加到铝中
6. Effect of Corrosion and Surface Finishing on Fatigue Behavior of Friction Stir Welded EN AW-5754 Aluminum Alloy Using Various Tool Configurations [O] . Abootorab Baqerzadeh Chehreh, Michael Grätzel, Jean Pierre Bergmann, 2020

机译：耐腐蚀和表面精加工对摩擦搅拌焊接型铝合金的疲劳行为各种工具配置
7. Fatigue behavior of dissimilar friction stir welds between cast and wrought aluminum alloys [O] . Uematsu Y., Tozaki Y., Tokaji K., 2008

机译：铸铝合金和锻铝合金之间不同的搅拌摩擦焊缝的疲劳行为

Effect of friction stir processing conditions on fatigue behavior and texture development in A356-T6 cast aluminum alloy

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