Reciprocating wear resistance of Al-SiC nano-composite fabricated by accumulative roll bonding process

E. Darmiani; I. Danaee; M.A. Golozar; M.R. Toroghinejad; A. Ashrafi; A. Ahmadi

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Reciprocating wear resistance of Al-SiC nano-composite fabricated by accumulative roll bonding process

机译：累积轧制工艺制备的Al-SiC纳米复合材料的往复耐磨性

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In this work the wear behaviour of Al-SiC nano-composite, produced by accumulative roll bonding process was characterized using a pin-on-flat wear-testing machine. Hence various tests such as micro-hardness and reciprocating wear test were carried out. Morphology of the worn surfaces of this nano-composite was examined using scanning electron microscope. Experimental results have been revealed that the wear resistance of this nano-composite increased by increasing the cycle number due to SiC particles act as a solid lubricant. Also by increasing the cycle's number the size of SiC particle becomes less than 100 nm and nano-composite was formed.

机译：在这项工作中，使用销钉式平面磨损试验机表征了通过累积辊压粘合工艺生产的Al-SiC纳米复合材料的磨损行为。因此，进行了诸如显微硬度和往复磨损测试的各种测试。使用扫描电子显微镜检查该纳米复合材料的磨损表面的形态。实验结果表明，由于SiC颗粒充当固体润滑剂，通过增加循环次数，该纳米复合材料的耐磨性得以提高。同样，通过增加循环次数，SiC颗粒的尺寸变得小于100nm，并且形成了纳米复合材料。

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《Materials & design》 |2013年第9期|497-502|共6页
作者
E. Darmiani; I. Danaee; M.A. Golozar; M.R. Toroghinejad; A. Ashrafi; A. Ahmadi;
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Abadan Faculty of Petroleum Engineering, Petroleum University of Technology, Abadan, Iran;

Abadan Faculty of Petroleum Engineering, Petroleum University of Technology, Abadan, Iran;

Department of Materials Engineering, Isfahan University of Technology, Isfahan, Iran;

Department of Materials Engineering, Isfahan University of Technology, Isfahan, Iran;

Department of Materials Science & Engineering, Shahid Chamran University, Ahvaz, Iran;

Department of Materials Engineering, Isfahan University of Technology, Isfahan, Iran;

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1. Corrosion investigation of Al-SiC nano-composite fabricated by accumulative roll bonding (ARB) process [J] . E. Darmiani, I. Danaee, M.A. Golozar Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2013,第Null期

机译：累积辊压结合法制备的Al-SiC纳米复合材料的腐蚀研究
2. Enhanced strengthening of Al-SiC nanocomposites containing a uniform dispersion of dense nanoparticles fabricated by a hybrid accumulative roll-bonding process [J] . X.M. Mei, Q.S. Mei, C.L. Li, Materials Science and Engineering . 2021,第Jana2期

机译：增强强化含有通过混合累积辊粘合工艺制造的致密纳米颗粒均匀分散的Al-SiC纳米复合材料
3. Optimization of the Process Parameters on the Mechanical and Wear Properties of Al-SiC Nano-Composites Fabricated by Friction Stir Processing Using Desirability Approach [J] . International journal of applied mechanics . 2020,第3期

机译：利用期望方法，通过摩擦搅拌加工制造的Al-SiC纳米复合材料机械和磨损性能的优化
4. Influence of Stacking Fault Energy on the Grain Size of FCC Metals Fabricated by Accumulative Roll Bonding Process [C] . Roohollah Jamaati, Mohammad Reza Toroghinejad International Conference on Advances in Materials Science and Engineering . 2015

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5. Processing, mechanical behavior and biocompatibility of ultrafine grained zirconium fabricated by accumulative roll bonding. [D] . Jiang, Ling. 2008

机译：累积轧制法制备超细晶锆的工艺，力学性能和生物相容性。
6. Annealing Effects in Twin-Roll Cast AA8006 Aluminium Sheets Processed by Accumulative Roll-Bonding [O] . Miroslav Cieslar, Michaela Poková 2014

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7. An Investigation of Microstructural Evolution and Sliding Wear Behavior of Ultra-Fine Grained 5052 Aluminum Alloy Fabricated by an Accumulative Roll-Bonding Process [O] . 2003

机译：累积轧辊粘接工艺制造超细颗粒5052铝合金微观结构演化和滑动磨损行为的研究

Reciprocating wear resistance of Al-SiC nano-composite fabricated by accumulative roll bonding process

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