Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: An overview

Oscar Borrero-L6pez; Angel L. Ortiz; Fernando Guiberteau

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Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: An overview

机译：滑动耐磨液相烧结SiC的显微组织设计

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We have reviewed the effect of microstructure - content of intergranular phase, grain size, and grain shape - on the lubricated, sliding-wear of pressureless liquid-phase-sintered (LPS) SiC ceramics. The sliding-wear resistance in LPS SiC decreases with an increase in the content of the intergranular phase or an increase in the equiaxed-grain coarsening. However, the sliding-wear resistance is dramatically improved with anisotropic-grain coarsening. Based on these results we suggest two strategies for the microstructural design of low-cost, sliding-wear resistant SiC-based ceramics: (1) grain refinement, and (2) grain elongation. The latter strategy allows the materials to be simultaneously in situ toughened, and we describe its optimization by judicious selection of the SiC starting powder.

机译：我们已经审查了微结构-晶间相含量，晶粒尺寸和晶粒形状-对无压液相烧结（LPS）SiC陶瓷的润滑滑动磨损的影响。随着晶间相含量的增加或等轴晶粒粗化的增加，LPS SiC中的耐磨性降低。但是，各向异性晶粒的粗化可以显着提高其耐滑动磨损性。基于这些结果，我们提出了两种低成本，耐滑动磨损的SiC基陶瓷的微观结构设计策略：（1）晶粒细化和（2）晶粒伸长。后一种策略允许同时对材料进行原位增韧，我们通过明智地选择SiC起始粉末来描述其优化。

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来源
《Journal of the European Ceramic Society》 |2007年第11期|共7页
作者
Oscar Borrero-L6pez; Angel L. Ortiz; Fernando Guiberteau;
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正文语种 eng
中图分类陶瓷工业;
关键词
Wear resistance; SiC; Sintering; Liquid-phase sintering; Microstructure;

机译：耐磨性;SiC;烧结;液相烧结;显微组织;

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1. Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: An overview [J] . Oscar Borrero-L6pez, Angel L. Ortiz, Fernando Guiberteau Journal of the European Ceramic Society . 2007,第11期

机译：滑动耐磨液相烧结SiC的显微组织设计
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5. Microstructural evolution in laser and electron beam welds on SiC-reinforced A356 aluminum. [D] . Lienert, Thomas Joseph. 1998

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7. Microstructural design for mechanical and electrical properties of spark plasma sintered Al 2 O3-SiC nanocomposites [O] . Borrell, Amparo, Álvarez-Clemares, I., Torrecillas, Ramón, 2012

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8. InSitu SEM Investigation of Microstructural Damage Evolution and Strain Relaxation in a Melt Infiltrated SiC/SiC Composite. [R] . Sevener, K., Chen, Z., Daly, S., 2016

机译：熔融渗透siC / siC复合材料微观组织损伤演化及应变松弛的原位sEm研究。

Microstructural design of sliding-wear-resistant liquid-phase-sintered SiC: An overview

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