Tribological Properties of B4C–SiC–hBN Composite Ceramics Sliding Against AISI 347 Steel Immersed in Emulsion

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
Dong Liang, Sang Xiong
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Abstract

The powders of hBN, SiC, and B4C were employed as the raw ingredients to prepare the B4C–SiC–hBN composite ceramics by a vacuum high-pressure sintering method with hBN and SiC contents in the range of 0, 10, and 20 wt.%, respectively. A pin-on-disc testing equipment was used to assess the tribological properties of B4C–SiC–hBN composite ceramics with various hBN and SiC content when sliding against AISI 347 steel immersed in the emulsion. The experiment’s findings indicate that the sliding COF of the B4C/AISI 347 steel pair marginally drops as the sliding distance increases. Besides, the sliding COF of the B4C–10 wt.% SiC–20 wt.% hBN/AISI 347 steel pair rapidly declines. By tribopairs of B4C–SiC–hBN composite ceramics against AISI 347 steel under the condition of lubrication by water-based emulsion, the steady-state friction may move into a state of mix lubrication as the hBN concentration rises, improving the tribological performance. The steady-state COF considerably decreases to 0.01 from 0.386 as the hBN and SiC concentration is increased to 20 wt.% and 10 wt.% from zero, showing a decreasing trend for both the B4C–SiC–hBN pin and AISI 347 steel disc samples’ COWs. The steady-state friction of tribopairs of B4C–SiC–hBN composite ceramics against AISI 347 steel may enter a state of mixed lubrication in the emulsion. The wear resistance of composite ceramics was improved by the addition of hBN and SiC particles because of their lubricating and reinforcing effects. These findings offer valuable insights into the design and development of advanced composite ceramics for various industrial applications that require improved tribological properties.

Abstract Image

Abstract Image

B4C-SiC-hBN复合陶瓷与AISI 347钢的摩擦摩擦学性能
以hBN、SiC和B4C粉末为原料,采用真空高压烧结法制备B4C - SiC - hBN复合陶瓷,hBN和SiC的含量分别为0、10和20 wt.%。采用针盘式测试装置,研究了不同hBN和SiC含量的B4C-SiC-hBN复合陶瓷与浸泡在乳液中的AISI 347钢的摩擦性能。试验结果表明,B4C/AISI 347钢对的滑动COF随滑动距离的增加而略有下降。此外,b4c - 10wt .% sic - 20wt .% hBN/AISI 347钢对的滑动COF迅速下降。在水基乳化液润滑条件下,B4C-SiC-hBN复合陶瓷与AISI 347钢摩擦,随着hBN浓度的升高,稳态摩擦进入混合润滑状态,摩擦学性能得到改善。当hBN和SiC浓度分别从0增加到20 wt.%和10 wt.%时,稳态COF从0.386显著降低到0.01,B4C-SiC-hBN引脚和AISI 347钢盘试样的奶牛均呈下降趋势。B4C-SiC-hBN复合陶瓷摩擦副与AISI 347钢的稳态摩擦在乳状液中进入混合润滑状态。hBN和SiC颗粒的加入对复合陶瓷具有润滑和增强作用,提高了复合陶瓷的耐磨性。这些发现为需要改善摩擦学性能的各种工业应用的先进复合陶瓷的设计和开发提供了有价值的见解。
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来源期刊
Powder Metallurgy and Metal Ceramics
Powder Metallurgy and Metal Ceramics 工程技术-材料科学:硅酸盐
CiteScore
1.90
自引率
20.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Powder Metallurgy and Metal Ceramics covers topics of the theory, manufacturing technology, and properties of powder; technology of forming processes; the technology of sintering, heat treatment, and thermo-chemical treatment; properties of sintered materials; and testing methods.
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