Change of microstructure and cyclic deformation behavior along the thickness in a friction-stir-welded aluminum alloy

W.F. Xu; J.H. Liu; D.L. Chen

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Change of microstructure and cyclic deformation behavior along the thickness in a friction-stir-welded aluminum alloy

机译：搅拌摩擦铝合金的组织和厚度方向的循环变形行为

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The microstructure and cyclic deformation behavior of three slices of a thick plate of friction-stir-welded Al-Cu alloy were investigated. Friction stir welding resulted in a composite-like nugget zone consisting of fine particles uniformly dispersed in the recrys-tallized fine-grained matrix. The top slice had larger grains, smaller particles, higher hardness, stronger cyclic hardening, higher hysteresis energy and lower fatigue life than the bottom slice. Fatigue cracks initiated from near-surface particles in the low-hardness zone, and propagated via striation formation mechanisms along with particle cracking.

机译：研究了三片摩擦搅拌焊接的Al-Cu合金厚板的显微组织和循环变形行为。搅拌摩擦焊接形成了类似复合物的熔核区，该熔核区由均匀分散在经雷氏体化的细颗粒基质中的细颗粒组成。顶部切片比底部切片具有更大的晶粒，较小的颗粒，更高的硬度，更强的循环硬化，更高的磁滞能量和更低的疲劳寿命。疲劳裂纹从低硬度区域中的近表面颗粒开始，并通过条纹形成机制与颗粒裂纹一起传播。

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《Scripta materialia》 |2012年第1期|共4页
作者
W.F. Xu; J.H. Liu; D.L. Chen;
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正文语种 eng
中图分类冶金工业;
关键词
Friction stir welding; Aluminum alloy; Microstructure; Low-cycle fatigue;

机译：搅拌摩擦焊接;铝合金;显微组织;低周疲劳;

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1. Change of microstructure and cyclic deformation behavior along the thickness in a friction-stir-welded aluminum alloy [J] . W.F. Xu, J.H. Liu, D.L. Chen Scripta materialia . 2012,第1期

机译：搅拌摩擦铝合金的组织和厚度方向的循环变形行为
2. Change of Intergranular Corrosion Behavior along the Thickness in a Friction-Stir-Welded 7N01-T5 Aluminum Alloy [J] . Zhi Qiang Zhang, Ying Li, Yan Shuang Xing, Materials science forum . 2018,第3期

机译：搅拌摩擦焊接7N01铝合金的晶界腐蚀行为沿厚度的变化
3. Cyclic deformation behavior of friction-stir-welded dissimilar AA5083-to-AA2024 joints: Effect of microstructure and loading history [J] . Niu P. L., Li W. Y., Vairis A., Materials Science and Engineering . 2019,第JANa28期

机译：搅拌摩擦焊接不同AA5083-至AA2024接头的循环变形行为：微观结构和加载历史的影响
4. Investigations on the Hardness Distribution and Microstructure of Friction-Stir-Welded 6082 Aluminum Alloy [C] . Kunyuan Gao, Bo Li, Yusheng Ding, Chinese Materials Conference . 2020

机译：摩擦搅拌焊接6082铝合金硬度分布及微观结构的研究
5. Deformation and fracture behavior of titanium-aluminum-niobium-(chromium,molybdenum) alloys with a gamma+sigma microstructure at ambient temperature. [D] . Kesler, Michael Steiner. 2011

机译：具有g + sigma微结构的钛-铝-铌-（铬，钼）合金在环境温度下的变形和断裂行为。
6. Hot Deformation Behavior and Microstructure Evolution of 6063 Aluminum Alloy Modified by Rare Earth Y and Al-Ti-B Master Alloy [O] . Wanwu Ding, Xiaoxiong Liu, Xiaoyan Zhao, 2020

机译：稀土y和Al-Ti-B主合金改性6063铝合金的热变形行为和微观结构演化
7. Microstructure and mechanical properties of friction-stir-welded 6061 aluminum alloy sheets [O] . Shinji KUMAI, Gosuke WAKANA, Masato YAMAWAKI, 2003

机译：摩擦搅拌焊接6061铝合金板材的微观结构和力学性能
8. The Relationship of Microstructure to Monotonic and Cyclic Straining of Two Age Hardening Aluminum Alloys. [R] . Sanders, T. H., Starke, E. A. 1975

机译：两种时效硬化铝合金组织与单调和循环应变的关系。

Change of microstructure and cyclic deformation behavior along the thickness in a friction-stir-welded aluminum alloy

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