STUDY OF PROCESSING AND MICROSTRUCTURE OF COPPER COMPOSITE REINFORCED WITH GRAPHENE NANOSHEET BY POWDER METALLURGY TECHNIQUE

N. Vijay Ponraj; A. Azhagurajan; S. C. Vettivel; X. Sahaya Shajan; P. Y. Nabhiraj

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STUDY OF PROCESSING AND MICROSTRUCTURE OF COPPER COMPOSITE REINFORCED WITH GRAPHENE NANOSHEET BY POWDER METALLURGY TECHNIQUE

机译：用粉末冶金技术用石墨烯纳米晶铜复合材料加工和微观结构研究

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Copper (Cu) composite reinforced with graphene nanosheet (GNS) is obtained by powder metallurgy technique. The microstructure and mechanical properties were investigated based on the Cu composite reinforced with various GNS content (0, 1, and 2 wt.%). The characterization is carried out through Raman spectra (RS), Fourier transform infrared (FTIR), X-ray diffraction (XRD), high resolution scanning electron microscopy (HR-SEM), and transmission electron microscopy (TEM). The results show that GNS is uniformly dispersed in the Cu particle. Raman spectra and FTIR demonstrate the reduction of GNS from Graphene oxide (GO) oxide in GNS after heat treatment at 550 and 650°C. The TEM analysis confirms GNS to be 3-5 nm in size. During compression tests, the Cu-2 wt. % GNS composite demonstrates 9% higher compressive stress compared to pure Cu.

机译：用石墨烯纳米片（GNS）加强的铜（Cu）复合材料通过粉末冶金技术获得。研究了基于用各种GNS含量（0,1和2重量％）加强的Cu复合材料研究了微观结构和机械性能。通过拉曼光谱（RS），傅里叶变换红外（FTIR），X射线衍射（XRD），高分辨率扫描电子显微镜（HR-SEM）和透射电子显微镜（TEM）进行表征。结果表明，GNS均匀地分散在Cu颗粒中。拉曼光谱和FTIR在550和650℃下，在热处理后，在GNS中，在GNS中从石墨烯氧化物（GO）氧化物中的降低。 TEM分析确认GNS尺寸为3-5nm。在压缩测试期间，Cu-2重量。与纯Cu相比，％GNS复合材料表现出较高的压缩应力9％。

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来源
《Порошковая Металлургия 》 |2017年第517期| 共14页
作者
N. Vijay Ponraj; A. Azhagurajan; S. C. Vettivel; X. Sahaya Shajan; P. Y. Nabhiraj;
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作者单位

Department of Mechanical Engineering PSN College of Engineering and Technology;

Department of Mechanical Engineering Mepco Schlenk Engineering College Sivakasi;

Department of Mechanical Engineering Chandigarh College of Engineering and Technology;

Centre for Scientific and Applied Research PSN College of Engineering and Technology;

ECR Division Variable Energy Cyclotron Centre;

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原文格式 PDF
正文语种 eng
中图分类粉末冶金（金属陶瓷工艺） ; 一般性问题 ;
关键词
Copper; GNS; FTIR; HRSEM; Sintering; Powder metallurgy;

机译：铜;GNS;FTIR;HRSEM;烧结;粉末冶金;

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专利

1. Study of Processing and Microstructure of Copper Composite Reinforced with Graphene Nanosheet by Powder Metallurgy Technique [J] . Ponraj N. Vijay, Azhagurajan A., Vettivel S. C., Powder Metallurgy and Metal Ceramics . 2018 ,第9a10期

机译：用粉末冶金技术用石墨烯纳米晶铜复合材料加工和微观结构研究
2. Microstructure and tribological properties of titanium matrix nanocomposites through powder metallurgy using graphene oxide nanosheets enhanced copper powders and spark plasma sintering [J] . Tian N., Dong L. L., Wang H. L., Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2021 ,第1期

机译：钛基质纳米复合材料的微观结构和摩擦学性能，粉末氧化石墨烯氧化物纳米晶片增强铜粉和火花等离子体烧结
3. SYNTHESIS AND CHARACTERIZATION OF GRAPHENE NANOSHEETS/MAGNESIUM COMPOSITES PROCESSED THROUGH POWDER METALLURGY [J] . Du Xiaoming, Zheng Kaifeng, Liu Fengguo Materiali in Tehnologije . 2017 ,第6期

机译：通过粉末冶金加工石墨烯纳米片/镁复合材料的合成与表征
4. Graphene Reinforced Aluminum Matrix Composites Produced by Powder Metallurgy; Microstructure, Thermophysical And Mechanical Properties [C] . A. Saboori, M. Pavese1, Paolo Fino European Powder Metallurgy Association;Euro PM congress exhibition . 2018

机译：粉末冶金生产的石墨烯增强铝基复合材料;微观结构，热物理和机械性能
5. Discontinuously reinforced copper-matrix composites by powder metallurgy. [D] . Yih, Pay. 1996

机译：粉末冶金法不连续增强的铜基复合材料。
6. Microstructure and Enhanced Properties of Copper-Vanadium Nanocomposites Obtained by Powder Metallurgy [O] . Yong Wang, Jinguo Wang, Haohao Zou, 2019

机译：粉末冶金获得的铜钒纳米复合材料的组织和增强性能
7. Microstructure and Thermal Conductivity of Al–Graphene Composites Fabricated by Powder Metallurgy and Hot Rolling Techniques [O] . Abdollah Saboori, Matteo Pavese, Claudio Badini, 2017

机译：粉末冶金和热轧技术制造的Al-石墨烯复合材料的微观结构和导热系数
8. Powder Metallurgical Processing of Fibre Reinforced Aluminium Composites [R] . ter Haar, J. H. 1993

机译：纤维增强铝基复合材料的粉末冶金加工

STUDY OF PROCESSING AND MICROSTRUCTURE OF COPPER COMPOSITE REINFORCED WITH GRAPHENE NANOSHEET BY POWDER METALLURGY TECHNIQUE

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