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Redistribution Mechanisms and Quantification of Homogeneity in Friction Stir Welding and Processing of an Aluminum Silicon Alloy.

机译：摩擦搅拌焊接和铝硅合金加工中均匀性的再分配机制和量化。

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The uniformity (homogeneity) of nondeforming particle distributions in a cast alloy's microstructure is highly important in controlling the material's strength, ductility, and fatigue resistance. Friction stir processing (FSP) is an effective post-casting technique for redistributing constituent material into a more homogeneous state, although the mechanism of particle transport remains unclear and no concise method exists for quantifying and comparing homogeneity. Advective and diffusive redistribution processes are investigated in Al-7% Si and AA356 to determine the magnitude and rate of particle transport within a high-temperature deforming metallic matrix. High temperature deformation experiments were conducted via Equal Channel Angular Processing (ECAP), hot rolling, and FSP. Processed material was then examined using optical / scanning electron microscopy. The experimentally observed particle transport was compared against modeled and analytically predicted transport, while microstructural homogeneity was measured and compared using digital image analysis and a six-parameter variance model. FSP redistribution is proposed to be the result of a matrix shear / layer sliding advective mechanism, the probable result of fine layers of material (ranging from 5 to 15 m in thickness) that are sheared and rotated by the tool's pin face. Diffusive processes have only a small role in FSP redistribution. FSP is shown to increase homogeneity by a factor of approximately 5 (compared to as-cast), increasing linearly with tool RPM over the measured range.

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Woertz, J. C.;
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年度 2012
页码 1-279
总页数 279
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Aluminum alloys; Silicon alloys; Welding; Castings; Fatigue(Mechanics); High temperature; Homogeneity; Rolling(Metallurgy); Sliding; Theses; Redistribution; Homogenization; Friction stir processing; Aluminum silicon; Mechanical mixing; Diffusive mixing; Advective mixing; Al-7% si; Aa356; Ecap; Fsp; Shear; Layer sliding;

机译：铝合金;硅合金;焊接;铸件;疲劳（机械）;高温;均匀性;轧制（冶金）;滑动;论文;再分配;均匀化;摩擦搅拌加工;铝硅;机械混合;扩散混合;平流混合;铝-7％si; aa356; Ecap; Fsp;剪切;层滑动;

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1. 水下搅拌摩擦焊接:一种具有改善接头性能巨大潜力的搅拌摩擦焊接新方法 [J] . Mohd. Atif WAHID, Zahid A. KHAN, Arshad Noor SIDDIQUEE 中国有色金属学报（英文版） . 2018,第002期
2. Recrystallization mechanisms during friction stir welding/processing of aluminum alloys [J] . T.R. McNelley, S. Swaminathan, J.Q. Su Scripta materialia . 2008,第5期

机译：铝合金摩擦搅拌焊接/加工过程中的再结晶机理
3. Friction stir welding of 2060-T8 Al-Li alloy. Part I: Microstructure evolution mechanism and mechanical properties [J] . Tao Y., Zhang Z., Yu B. H., Materials Characterization . 2020,第1期

机译：2060-T8 Al-Li合金的摩擦搅拌焊接。第一部分：微观结构演化机制和机械性能
4. Characteristics and Formation Mechanisms of Welding Defects in Underwater Friction Stir Welded Aluminum Alloy [J] . Huijie Zhang, Huijie Liu Metallography, Microstructure, and Analysis . 2012,第6期

机译：水下搅拌摩擦焊接铝合金的焊接缺陷特征及形成机理
5. Mechanical Properties of Friction Stir Processed, Friction Stir Welded, and Gas Metal Arc Welded AAS083 Aluminum Plate [C] . C. B. Smith, R. S. Mishra, G. R. Argade, Friction stir welding and processing VI . 2011

机译：搅拌摩擦加工，搅拌摩擦焊接和气弧焊的机械性能AAS083铝板
6. Friction stir welding process and material microstructure evolution modeling in 2000 and 5000 series of aluminum alloy. [D] . Yalavarthy, Harshavardhan. 2009

机译：2000和5000系列铝合金的搅拌摩擦焊接工艺及材料组织演变建模。
7. Effect of Shot Peening on Redistribution of Residual Stress Field in Friction Stir Welding of 2219 Aluminum Alloy [O] . Lin Nie, Yunxin Wu, Hai Gong, 2020

机译：2219铝合金摩擦搅拌焊接残余应力场再分配的影响
8. Redistribution Mechanisms and Quantification of Homogeneity in Friction Stir Welding and Processing of an Aluminum Silicon Alloy [O] . Woertz Jeffrey C. 2012

机译：铝硅合金摩擦搅拌焊接与加工均匀性的再分布机理与量化

Redistribution Mechanisms and Quantification of Homogeneity in Friction Stir Welding and Processing of an Aluminum Silicon Alloy.

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