Microstructures and wear-resistant properties of in-situ WCp/W wire hybrid reinforced iron matrix composites via electromagnetic field

机译：电磁场作用下原位WCp / W丝混杂增强铁基复合材料的组织和耐磨性能

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摘要

In the paper, tungsten carbide (WC) particles can be in-situ synthesized by applying electromagnetic field to the system consisting of tungsten wires and gray cast iron melt at 1573 K. The microstructures and wear-resistant properties of composites reinforced by both WC particles and the residual tungsten wires were investigated by XRD, SEM, EDS, micro-hardness and pin-on-disc wear measurements. The results show that, with enhancing frequencies of electromagnetic field from 0 to 5 KHz, the amounts of in-situ WC particles increased and of the residual tungsten wires gradually decreased until tungsten wires completely reacted. Due to the higher hardness of in-situ WCp(2100-2231HV0.1) and the strong interfacial bonding, the composites displayed an excellent wear-resistant properties. When the frequency was 5 kHz, the wear loss for the composite fabricated was optimal and 2.69 times lower than that of reference samples.

机译：在本文中，可以通过在1573 K上对由钨丝和灰铸铁熔体组成的系统施加电磁场来原位合成碳化钨（WC）颗粒。这两种WC颗粒增强的复合材料的微观结构和耐磨性能并通过XRD，SEM，EDS，显微硬度和针对盘磨损测量研究了残留的钨丝。结果表明，随着电磁场频率从0到5 KHz的增加，原位WC颗粒的数量增加，残余钨丝逐渐减少，直到钨丝完全反应。由于原位WCp（2100-2231HV0.1）的较高硬度和牢固的界面结合，该复合材料具有出色的耐磨性。当频率为5 kHz时，所制造复合材料的磨损损耗最佳，比参考样品低2.69倍。

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来源
《International conference on multi-functional materials and structures》|2009年|p.1463-1466|共4页
会议地点 Qingdao(CN)
作者
Libin Niu; Yunhua Xu; Hong Wu;
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作者单位

Institute of Wear-Resistant Materials, College of Mechanical and Electrical Engineering, Xi′an University of Architecture Technology, Xi′an, 710055, China;

Institute of Wear-Resistant Materials, College of Mechanical and Electrical Engineering, Xi′an University of Architecture Technology, Xi′an, 710055, China;

Institute of Wear-Resistant Materials, College of Mechanical and Electrical Engineering, Xi′an University of Architecture Technology, Xi′an, 710055, China;

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中图分类工程材料学;
关键词
In-situ; Tungsten carbide; Gray cast iron; Electromagnetic field; Composites;

机译：原位碳化钨;灰铸铁；电磁场复合材料;

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专利

1. Study on in-situ WC particles/tungsten wire reinforced iron matrix composites under electromagnetic field [J] . Niu Libin, Xu Yunhua, Wu Hong China Foundry . 2010,第2期

机译：电磁场下原位WC颗粒/钨丝增强铁基复合材料的研究
2. Study on in-situ WC particles/tungsten wire reinforced iron matrix composites under electromagnetic field [J] . Niu Libin, Xu Yunhua, Wu Hong 中国铸造：英文版 . 2010,第002期

机译：电磁场下原位WC颗粒/钨丝增强铁基复合材料的研究
3. Effects of Ni60WC25 powder content on the microstructure and wear properties of WCp reinforced surface metal matrix composites [J] . Sui Yudong, Han Lina, Jiang Yehua, Transactions of the Indian Institute of Metals . 2018,第10期

机译：Ni60WC25粉末含量对WCP增强表面金属基复合材料微观结构和磨损性能的影响
4. Microstructures and wear-resistant properties of in-situ WC_p/W wire hybrid reinforced iron matrix composites via electromagnetic field [C] . Libin Niu, Yunhua Xu, Hong Wu International Conference on Multi-functional Materials and Structures . 2009

机译：电磁场原位WC_P / W线混合钢基复合材料的微观结构和耐磨性能
5. The microstructure-processing-property relationships in an aluminum matrix composite system reinforced by aluminum-copper-iron alloy particles. [D] . Tang, Fei. 2004

机译：铝-铜-铁合金颗粒增强的铝基复合材料体系中的微观结构-加工-性能关系。
6. Microstructures and Compressive Properties of Al Matrix Composites Reinforced with Bimodal Hybrid In-Situ Nano-/Micro-Sized TiC Particles [O] . Feng Qiu, Hao-Tian Tong, Yu-Yang Gao, 2018

机译：双峰杂化原位纳米/微米TiC颗粒增强Al基复合材料的组织和压缩性能
7. Study on in-situ WC particles/tungsten wire reinforced iron matrix composites under electromagnetic field [O] . Niu Libin, Xu Yunhua, Wu Hong 2010

机译：电磁场作用下原位WC颗粒/钨丝增强铁基复合材料的研究

Microstructures and wear-resistant properties of in-situ WCp/W wire hybrid reinforced iron matrix composites via electromagnetic field

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