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Microstructure and Tribological Performance of Mesocarbon Microbead–Silicon Carbide Composites

机译：中碳微珠-碳化硅复合材料的微观结构和摩擦学性能

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摘要

Mesocarbon microbead–silicon carbide (MCMB–SiC) composites with 0–30 wt % MCMBs were prepared by pressureless sintering (PLS) method at 2200 °C in Ar. The microstructure and tribological properties of the prepared composites were investigated. The results show that there was a finer grain size of SiC with the increase in MCMB content because MCMBs hinder the growth of SiC grains. The hardness of the composites decreased with increasing MCMB content, whereas the fracture toughness fluctuated showing a complex trend. The tribological properties of the composites under dry friction conditions were evaluated using the pin-on-disk method against a SiC counterpart. We found that the tribological properties of the samples were influenced by the oxide film or lubricating film that formed during the wear process on wear surfaces. Different wear mechanisms were found to be associated with differing MCMB contents.

机译：通过在2200°C下在Ar中进行无压烧结（PLS）方法制备了具有0–30 wt％MCMBs的中碳微珠－碳化硅（MCMB–SiC）复合材料。研究了所制备复合材料的微观结构和摩擦学性能。结果表明，随着MCMB含量的增加，SiC晶粒尺寸减小，这是因为MCMBs阻碍了SiC晶粒的生长。复合材料的硬度随MCMB含量的增加而降低，而断裂韧性则出现复杂的变化趋势。使用针盘法对SiC对应物评估了在干摩擦条件下复合材料的摩擦学性能。我们发现，样品的摩擦学性能受磨损过程中在磨损表面上形成的氧化膜或润滑膜的影响。发现不同的磨损机理与不同的MCMB含量有关。

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期刊名称 Materials
作者
Xiaojie Wang; Xiumin Yao; Hui Zhang; Xuejian Liu; Zhengren Huang;
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作者单位

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年(卷),期 2019(12),19
年度 2019
页码 -1
总页数 13
原文格式 PDF
正文语种
中图分类外科学;
关键词
microstructure; tribological properties; wear mechanism; MCMB–SiC composites;

机译：显微组织;摩擦学性能;磨损机理;MCMB-SiC复合材料;

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专利

1. In situ synthesis of nano size silicon carbide and fabrication of C-SiC composites during the siliconization process of mesocarbon microbeads preforms [J] . Saeed Safi, Rahim Yazdani Rad CERAMICS INTERNATIONAL . 2012,第6期

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2. Silicon Carbide-Derived Carbon Coated Graphitized Mesocarbon Microbead Composites for Anode of Lithium-Ion Battery [J] . Zhengwei Cui, Ye Cong, Xuelian Du, Research & Reviews: Journal of Material Sciences . 2017,第3期

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3. Processing of mesocarbon microbeads to high-performance materials: Part II. Reaction bonding by in situ silicon carbide and nitride formation [J] . Christopher Norfolk, Alexander Mukasyan, Daniel Hayes Carbon: An International Journal Sponsored by the American Carbon Society . 2006,第2期

机译：中碳微珠加工成高性能材料的过程：第二部分。通过原位碳化硅和氮化物的反应键合
4. Microstructure and mechanical properties of hot-pressed silicon carbide fibre-reinforced silicon carbide composite [C] . K. Yoshida, M. Imai, T. Yano International conference on high temperature cermic matrix composites . 1999

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5. Processing - microstructure relationships of chemically vapor deposited zirconia fiber coating for environmentally durable silicon carbide/silicon carbide composites. [D] . Lee, Jinil. 2003

机译：加工-环境耐用的碳化硅/碳化硅复合材料的化学气相沉积氧化锆纤维涂层的微观结构关系。
6. Fabrication and Tribological Properties of Mesocarbon Microbead–Cu Friction Composites [O] . Hai-Xia Guo, Jian-Feng Yang 2020

机译：中碳微珠-铜摩擦复合材料的制备及摩擦学性能
7. Fabrication and Tribological Properties of Mesocarbon Microbead–Cu Friction Composites [O] . Hai-Xia Guo, Jian-Feng Yang 2020

机译：Mesocarbon Microbead-Cu摩擦复合材料的制造和摩擦学性质
8. Microstructure and orientation effects on properties of discontinuous silicon carbide/aluminum composites [R] . Mcdanels, D. L., Hoffman, C. A. 1984

机译：微观结构和取向对不连续碳化硅/铝复合材料性能的影响

Microstructure and Tribological Performance of Mesocarbon Microbead–Silicon Carbide Composites

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