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Ultrafine-Grained Surface Layer Formation of Aluminum Alloy 5083 by Friction Stir Processing

机译：通过摩擦搅拌加工铝合金5083的超细粒化表面层形成

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Friction stir processing experiments are conducted on aluminum alloy 5083 plates to enhance the surface integrity by introducing an ultrafine-grained surface layer. Microstructural analyses are carried out using optical microscopy to characterize the grain structures under various conditions. Within the produced surface layer, equiaxed ultra-fine grains are observed due to dynamic recrystallized during FSP. The grain size is reduced from 40 um to a submicron level for the FSP rotational speed of 800 rpm. The hardness is increased to a peak value of 151HV, which is higher than that of the unprocessed area by 50%.

机译：在铝合金5083板上进行摩擦搅拌处理实验，以通过引入超细晶粒表面层来增强表面完整性。使用光学显微镜进行微观结构分析，以在各种条件下表征晶粒结构。在所产生的表面层内，由于在FSP期间的动态重结晶，因此观察到等轴的超细晶粒。晶粒尺寸从40μm降低到亚微米水平，用于800 rpm的FSP转速。硬度增加到151HV的峰值，其高于未处理面积的50％。

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《CIRP Conference on Surface Integrity》|2016年|374p.|共4页
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Reza Abdi Behnagh; Ninggang Shen; Masoud Abdollahi;
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正文语种
中图分类材料结构及物理性质;
关键词
Friction stir processing; Ultra-fine grain; Surface integrity; Aluminum; Microstructure;

机译：摩擦搅拌加工;超细晶粒;表面完整性;铝;微观结构;

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专利

1. Ultrafine-Grained Surface Layer Formation of Aluminum Alloy 5083 by Friction Stir Processing [J] . Reza Abdi Behnagh, Ninggang Shen, Masoud Abdollahi, Procedia CIRP . 2016,第2期

机译：搅拌摩擦法形成5083铝合金超细晶表面层
2. Transition in Deformation Mechanism during High-Temperature Tensile Testing of Friction-Stir-Processed 5083 Aluminum Alloy [J] . Takashi MIZUGUCHI, Tsutomu ITO, Kota KIMURA, 材料 . 2018,第5期

机译：摩擦搅拌加工5083铝合金高温拉伸试验期间变形机理的转变
3. Hot deformation behavior of friction-stir processed strip-cast 5083 aluminum alloys with different Mn contents [J] . M.A.Garcia-Bernal, R.S. Mishra, R. Verma, Materials Science and Engineering . 2012,第Feba1期

机译：锰含量不同的搅拌摩擦处理铸造5083铝合金的热变形行为
4. Ultrafine-Grained Surface Layer Formation of Aluminum Alloy 5083 by Friction Stir Processing [C] . Reza Abdi Behnagh, Ninggang Shen, Masoud Abdollahi CIRP Conference on Surface Integrity . 2016

机译：通过摩擦搅拌加工铝合金5083的超细粒化表面层形成
5. Microstructural and superplastic characteristics of friction stir processed aluminum alloys. [D] . Charit, Indrajit. 2004

机译：搅拌摩擦加工铝合金的微观结构和超塑性特征。
6. A New Approach in Surface Modification and Surface Hardening of Aluminum Alloys Using Friction Stir Process: Cu-Reinforced AA5083 [O] . Ioannis G. Papantoniou, Angelos P. Markopoulos, Dimitrios E. Manolakos 2020

机译：摩擦搅拌法在铝合金表面改性和表面硬化中的新方法：铜增强AA5083
7. Ultrafine-Grained Surface Layer Formation of Aluminum Alloy 5083 by Friction Stir Processing [O] . Behnagh Reza Abdi, Shen Ninggang, Abdollahi Masoud, 2016

机译：搅拌摩擦法形成铝合金5083的超细晶粒表面层
8. Computational Investigation of Hardness Evolution During Friction-Stir Welding of AA5083 and AA2139 Aluminum Alloys. [R] . B. A. Cheeseman C. Yen G. Arakere M. Grujicic 2011

机译：aa5083和aa2139铝合金搅拌摩擦焊时硬度演变的计算研究。

Ultrafine-Grained Surface Layer Formation of Aluminum Alloy 5083 by Friction Stir Processing

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