Effect of SiC ceramic nano-particles on microstructure and tribological performance of the AlTiVNbNi refractory high entropy alloy in a wide temperature range

Tao Li; Mingchuan Hu; Xuhui Pei; Yin Du; Wei Zhou; Haifeng Wang

doi:10.1016/j.triboint.2024.109850

Effect of SiC ceramic nano-particles on microstructure and tribological performance of the AlTiVNbNi refractory high entropy alloy in a wide temperature range

Tao Li, Mingchuan Hu, Xuhui Pei, Yin Du, Wei Zhou, Haifeng Wang

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

14 引用（Scopus）

摘要

A novel Al_0.8TiVNbNi_0.2(SiC)_0.2 RHEA-based composite was fabricated by spark plasma sintering. The microstructure evolution and distinctions in high-temperature tribological properties of composite incorporating SiC nano-particles were systematically analyzed. The results demonstrate that SiC particles undergo in-situ reactions with the matrix alloy during the sintering process, resulting in the formation of TiC and Nb₅Si₃ phases, which significantly increases the microhardness of the composite. Simultaneously, wear resistance of Al_0.8TiVNbNi_0.2(SiC)_0.2 composite is sharply ameliorated in a wide temperature range (RT to 800 °C). The non-exogenous matching interface between reinforced phases and matrix is the key to good tribological performance. For another, the generated Si oxides is contribute to continuity of the tribo-layer formed at high-temperatures, leading to a conspicuous reduction of wear rates.

源语言	英语
文章编号	109850
期刊	Tribology International
卷	198
DOI	https://doi.org/10.1016/j.triboint.2024.109850
出版状态	已出版 - 10月 2024

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title = "Effect of SiC ceramic nano-particles on microstructure and tribological performance of the AlTiVNbNi refractory high entropy alloy in a wide temperature range",

abstract = "A novel Al0.8TiVNbNi0.2(SiC)0.2 RHEA-based composite was fabricated by spark plasma sintering. The microstructure evolution and distinctions in high-temperature tribological properties of composite incorporating SiC nano-particles were systematically analyzed. The results demonstrate that SiC particles undergo in-situ reactions with the matrix alloy during the sintering process, resulting in the formation of TiC and Nb5Si3 phases, which significantly increases the microhardness of the composite. Simultaneously, wear resistance of Al0.8TiVNbNi0.2(SiC)0.2 composite is sharply ameliorated in a wide temperature range (RT to 800 °C). The non-exogenous matching interface between reinforced phases and matrix is the key to good tribological performance. For another, the generated Si oxides is contribute to continuity of the tribo-layer formed at high-temperatures, leading to a conspicuous reduction of wear rates.",

keywords = "High temperature, Refractory high entropy alloys, SiC nano-particles, Wear-resistance",

author = "Tao Li and Mingchuan Hu and Xuhui Pei and Yin Du and Wei Zhou and Haifeng Wang",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Ltd",

year = "2024",

month = oct,

doi = "10.1016/j.triboint.2024.109850",

language = "英语",

volume = "198",

journal = "Tribology International",

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TY - JOUR

T1 - Effect of SiC ceramic nano-particles on microstructure and tribological performance of the AlTiVNbNi refractory high entropy alloy in a wide temperature range

AU - Li, Tao

AU - Hu, Mingchuan

AU - Pei, Xuhui

AU - Du, Yin

AU - Zhou, Wei

AU - Wang, Haifeng

PY - 2024/10

Y1 - 2024/10

N2 - A novel Al0.8TiVNbNi0.2(SiC)0.2 RHEA-based composite was fabricated by spark plasma sintering. The microstructure evolution and distinctions in high-temperature tribological properties of composite incorporating SiC nano-particles were systematically analyzed. The results demonstrate that SiC particles undergo in-situ reactions with the matrix alloy during the sintering process, resulting in the formation of TiC and Nb5Si3 phases, which significantly increases the microhardness of the composite. Simultaneously, wear resistance of Al0.8TiVNbNi0.2(SiC)0.2 composite is sharply ameliorated in a wide temperature range (RT to 800 °C). The non-exogenous matching interface between reinforced phases and matrix is the key to good tribological performance. For another, the generated Si oxides is contribute to continuity of the tribo-layer formed at high-temperatures, leading to a conspicuous reduction of wear rates.

AB - A novel Al0.8TiVNbNi0.2(SiC)0.2 RHEA-based composite was fabricated by spark plasma sintering. The microstructure evolution and distinctions in high-temperature tribological properties of composite incorporating SiC nano-particles were systematically analyzed. The results demonstrate that SiC particles undergo in-situ reactions with the matrix alloy during the sintering process, resulting in the formation of TiC and Nb5Si3 phases, which significantly increases the microhardness of the composite. Simultaneously, wear resistance of Al0.8TiVNbNi0.2(SiC)0.2 composite is sharply ameliorated in a wide temperature range (RT to 800 °C). The non-exogenous matching interface between reinforced phases and matrix is the key to good tribological performance. For another, the generated Si oxides is contribute to continuity of the tribo-layer formed at high-temperatures, leading to a conspicuous reduction of wear rates.

KW - High temperature

KW - Refractory high entropy alloys

KW - SiC nano-particles

KW - Wear-resistance

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U2 - 10.1016/j.triboint.2024.109850

DO - 10.1016/j.triboint.2024.109850

M3 - 文章

AN - SCOPUS:85195856587

SN - 0301-679X

VL - 198

JO - Tribology International

JF - Tribology International

M1 - 109850

ER -

Effect of SiC ceramic nano-particles on microstructure and tribological performance of the AlTiVNbNi refractory high entropy alloy in a wide temperature range

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