Particle-reinforced aluminum matrix composites produced from powder mixtures via friction stir processing

I.S. Lee; CJ. Hsu; C.F. Chen; NJ. Ho; P.W. Kao

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Particle-reinforced aluminum matrix composites produced from powder mixtures via friction stir processing

机译：由粉末混合物经搅拌摩擦加工制得的颗粒增强铝基复合材料

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Particle-reinforced aluminum matrix composites were produced from powder mixtures of aluminum and silicon by using multiple passages of friction stir processing (FSP). In the composites, the Si particles with an average size of ~1.5 μm are uniformly dispersed in the aluminum matrix which has a fine-grained structure (~2 μm). The strengthening mechanism of the composites is discussed. It indicates that the fine grain size of aluminum, the Orowan strengthening due to intragranular particles and the dislocations generated by thermal mismatch all contribute significantly to the composite yield strength.

机译：颗粒增强的铝基复合材料是通过多次摩擦搅拌工艺（FSP）由铝和硅的粉末混合物制成的。在复合物中，平均粒径为〜1.5μm的Si颗粒均匀地分散在具有细粒结构（〜2μm）的铝基质中。讨论了复合材料的增强机理。这表明铝的细晶粒尺寸，颗粒内颗粒引起的Orowan强化以及热失配产生的位错都对复合材料的屈服强度有显着影响。

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来源
《Composites Science and Technology》 |2011年第5期|p.693-698|共6页
作者
I.S. Lee; CJ. Hsu; C.F. Chen; NJ. Ho; P.W. Kao;
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作者单位

Department of Materials and Optoelectronics Science. National Sun Vat-Sen University, Kaohsiung 804, Taiwan. ROC;

Department of Materials and Optoelectronics Science. National Sun Vat-Sen University, Kaohsiung 804, Taiwan. ROC;

Department of Materials and Optoelectronics Science. National Sun Vat-Sen University, Kaohsiung 804, Taiwan. ROC;

Department of Materials and Optoelectronics Science. National Sun Vat-Sen University, Kaohsiung 804, Taiwan. ROC;

Department of Materials and Optoelectronics Science. National Sun Vat-Sen University, Kaohsiung 804, Taiwan. ROC;

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正文语种 eng
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关键词
a. metal-matrix composites; b. mechanical properties; friction stir processing;

机译：一个。金属基复合材料;b。机械性能搅拌摩擦加工;

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3. Charecterization of molybdenum particles reinforced A16082 aluminum matrix composites with improved ductility produced using friction stir processing [J] . Selvakumar S., Dinaharan I., Palanivel R., Materials Characterization . 2017,第期

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4. INFLUENCE OF MILLING ATMOSPHERE ON THE HIGH-ENERGY BALL-MILLING PROCESS OF PRODUCING PARTICLE-REINFORCED ALUMINUM MATRIX COMPOSITES [C] . S. Siebeck, D. Nestler, H. Podlesak, International Conference on Composite Materials . 2011

机译：铣削气氛对生产粒子增强铝基复合材料的高能球磨过程的影响
5. In vitro corrosion behavior of magnesium alloy AZ31B-hydroxyapatite metallic matrix composites processed via friction stir processing. [D] . Ho, Yee-Hsien. 2016

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6. Characterization of Aluminum-Based-Surface Matrix Composites with Iron and Iron Oxide Fabricated by Friction Stir Processing [O] . Essam R. I. Mahmoud, Mahmoud M. Tash 2016

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7. Development of empirical relationships for prediction of mechanical and wear properties of AA6082 aluminum matrix composites produced using friction stir processing [O] . I. Dinaharan, N. Murugan, A. Thangarasu 2016

机译：用摩擦搅拌处理生产aa6082铝基复合材料的力学和磨损性能预测的经验关系的发展
8. Friction Stir Welding for Aluminum Metal Matrix Composites (MMC's) (Center Director's Discretionary Fund, Project No. 98-09) [R] . Lee, J. A., Carter, R. W., Ding, J. 1999

机译：铝金属基复合材料（mmC）的摩擦搅拌焊接（中心主任自行酌定基金，项目编号98-09）

Particle-reinforced aluminum matrix composites produced from powder mixtures via friction stir processing

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