Microstructure and tribological performance of an aluminium alloy based hybrid composite produced by friction stir processing

S.A. Alidokht; A. Abdollah-zadeh; S. Soleymani; H. Assadi

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Microstructure and tribological performance of an aluminium alloy based hybrid composite produced by friction stir processing

机译：搅拌摩擦制备铝合金基杂化复合材料的组织和摩擦学性能

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In this study, friction stir processing (FSP) was utilized to incorporate SiC and MoS_2 particles into the matrix of an A356 Al alloy to form surface hybrid composite. A constant tool rotation rate of 1600 rpm and travel speed of 50 mm/min with a tool tilt angle of 3° was used. The wear resistance of the processed samples improved significantly as compared to that of the as-cast alloy. Microstructural analyses showed a uniform distribution of reinforcement particles inside the nugget zone, and a MoS_2 rich mechanically mixed layer (MML) on the top of worn surface. This MoS_2 layer is considered to stifle plastic deformation and thus, to improve tribological properties of the alloy.

机译：在这项研究中，利用摩擦搅拌处理（FSP）将SiC和MoS_2颗粒掺入A356铝合金的基体中以形成表面杂化复合材料。使用恒定的工具转速1600 rpm，行进速度为50 mm / min，工具倾斜角为3°。与铸态合金相比，加工后的样品的耐磨性显着提高。显微组织分析显示，强化颗粒在熔核区内均匀分布，在磨损表面的顶部具有富含MoS_2的机械混合层（MML）。该MoS_2层被认为可以抑制塑性变形，从而改善合金的摩擦学性能。

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来源
《Materials & design》 |2011年第5期|p.2727-2733|共7页
作者
S.A. Alidokht; A. Abdollah-zadeh; S. Soleymani; H. Assadi;
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作者单位

Department of Materials Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran;

Department of Materials Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran;

Department of Materials Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran;

Department of Materials Engineering, Tarbiat Modares University, P.O. Box 14115-143, Tehran, Iran;

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正文语种 eng
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关键词
a. composite; c. surface treatments; e.wear;

机译：一个。综合;C。表面处理;电子服装;

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机译：摩擦搅拌法制备A15083基表面杂化复合材料的组织和摩擦学性能
2. Enhancement of mechanical and tribological properties of SiC- and CB-reinforced aluminium 7075 hybrid composites through friction stir processing [J] . Roy Pratip, Singh Subhash, Pal Kaushik Advanced Composite Materials: The Official Journal of the Japan Society of Composite Materials . 2019,第S1期

机译：通过摩擦搅拌加工增强SiC和CB增强铝7075杂交复合材料的机械和摩擦学性能
3. Influence of reinforcements (SiC and A1_2O_3) and rotational speed on wear and mechanical properties of aluminum alloy 6061-T6 based surface hybrid composites produced via friction stir processing [J] . A. Devaraju, A. Kumar, A. Kumaraswamy, Materials & design . 2013,第octa期

机译：增强材料（SiC和A1_2O_3）和旋转速度对通过摩擦搅拌工艺生产的6061-T6铝合金表面杂化复合材料的磨损和力学性能的影响
4. Effect of reinforcements (B_4C Al_2O_3) and rotational speed on tribological properties of aluminum alloy 7075 hybrid composites through friction stir processing [C] . Manu Khare, R. K. Gupta, S. S. Ghosh, International Conference on Advances in Mechanical Engineering and Nanotechnology . 2019

机译：增压（B_4C＆AL_2O_3）和旋转速度对摩擦搅拌加工铝合金7075杂交复合材料的摩擦性能
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. Experimental data on surface roughness and force feedback analysis in friction stir processed AA7075 – T651 aluminium metal composites [O] . Omolayo M. Ikumapayi, Esther T. Akinlabi 2019

机译：搅拌摩擦处理的AA7075 – T651铝金属复合材料的表面粗糙度和力反馈分析的实验数据
7. Mechanical properties of 7075-t6 aluminium alloy surface hybrid composites synthesised by friction stir processing [O] . K. Periasamy, M. Jayaraman, S. Rajkumar 2019

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Microstructure and tribological performance of an aluminium alloy based hybrid composite produced by friction stir processing

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