An effective strategy to improve the tribological performance of Ni55Ti45 alloy at elevated temperatures by oxygen doping

Yuyou Ranliang; Jiaxuan Huang; Zilong Huo; Xinyue Hu; Minghui Lang; Lihong Su; Guanyu Deng; Long Wang; Haifeng Wang

doi:10.1016/j.triboint.2025.110884

An effective strategy to improve the tribological performance of Ni55Ti45 alloy at elevated temperatures by oxygen doping

Yuyou Ranliang, Jiaxuan Huang, Zilong Huo, Xinyue Hu, Minghui Lang, Lihong Su, Guanyu Deng, Long Wang, Haifeng Wang

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

This study investigated the effects of oxygen doping on the mechanical and tribological properties of Ni55Ti45 alloy at high temperature. It was found that adding 2 at%O increased the alloy's hardness by 22 % and reduced the friction coefficient to 0.286. At 500 °C, the wear rate of the oxygen-doped alloy was reduced to 0.38 × 10⁻⁵ mm³ /(m N), exhibiting the best wear resistance. These improvements were attributed to the in-situ formed precipitated oxide phases and glaze layer induced by the shear force during the friction process at high temperature. The wear mechanism transitioned from abrasive wear and fatigue delamination at RT to oxidation wear at 500 °C. This work demonstrated that oxygen doping is an effective strategy to improve the high temperature tribological properties of Ni55Ti45 alloy.

Original language	English
Article number	110884
Journal	Tribology International
Volume	211
DOIs	https://doi.org/10.1016/j.triboint.2025.110884
State	Published - Nov 2025

Keywords

Friction coefficient
Ni55Ti45 alloy
Oxygen doping
Wear resistance

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10.1016/j.triboint.2025.110884

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title = "An effective strategy to improve the tribological performance of Ni55Ti45 alloy at elevated temperatures by oxygen doping",

abstract = "This study investigated the effects of oxygen doping on the mechanical and tribological properties of Ni55Ti45 alloy at high temperature. It was found that adding 2 at%O increased the alloy's hardness by 22 % and reduced the friction coefficient to 0.286. At 500 °C, the wear rate of the oxygen-doped alloy was reduced to 0.38 × 10⁻⁵ mm³ /(m N), exhibiting the best wear resistance. These improvements were attributed to the in-situ formed precipitated oxide phases and glaze layer induced by the shear force during the friction process at high temperature. The wear mechanism transitioned from abrasive wear and fatigue delamination at RT to oxidation wear at 500 °C. This work demonstrated that oxygen doping is an effective strategy to improve the high temperature tribological properties of Ni55Ti45 alloy.",

keywords = "Friction coefficient, Ni55Ti45 alloy, Oxygen doping, Wear resistance",

author = "Yuyou Ranliang and Jiaxuan Huang and Zilong Huo and Xinyue Hu and Minghui Lang and Lihong Su and Guanyu Deng and Long Wang and Haifeng Wang",

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T1 - An effective strategy to improve the tribological performance of Ni55Ti45 alloy at elevated temperatures by oxygen doping

AU - Ranliang, Yuyou

AU - Huang, Jiaxuan

AU - Huo, Zilong

AU - Hu, Xinyue

AU - Lang, Minghui

AU - Su, Lihong

AU - Deng, Guanyu

AU - Wang, Long

AU - Wang, Haifeng

PY - 2025/11

Y1 - 2025/11

N2 - This study investigated the effects of oxygen doping on the mechanical and tribological properties of Ni55Ti45 alloy at high temperature. It was found that adding 2 at%O increased the alloy's hardness by 22 % and reduced the friction coefficient to 0.286. At 500 °C, the wear rate of the oxygen-doped alloy was reduced to 0.38 × 10⁻⁵ mm³ /(m N), exhibiting the best wear resistance. These improvements were attributed to the in-situ formed precipitated oxide phases and glaze layer induced by the shear force during the friction process at high temperature. The wear mechanism transitioned from abrasive wear and fatigue delamination at RT to oxidation wear at 500 °C. This work demonstrated that oxygen doping is an effective strategy to improve the high temperature tribological properties of Ni55Ti45 alloy.

AB - This study investigated the effects of oxygen doping on the mechanical and tribological properties of Ni55Ti45 alloy at high temperature. It was found that adding 2 at%O increased the alloy's hardness by 22 % and reduced the friction coefficient to 0.286. At 500 °C, the wear rate of the oxygen-doped alloy was reduced to 0.38 × 10⁻⁵ mm³ /(m N), exhibiting the best wear resistance. These improvements were attributed to the in-situ formed precipitated oxide phases and glaze layer induced by the shear force during the friction process at high temperature. The wear mechanism transitioned from abrasive wear and fatigue delamination at RT to oxidation wear at 500 °C. This work demonstrated that oxygen doping is an effective strategy to improve the high temperature tribological properties of Ni55Ti45 alloy.

KW - Friction coefficient

KW - Ni55Ti45 alloy

KW - Oxygen doping

KW - Wear resistance

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U2 - 10.1016/j.triboint.2025.110884

DO - 10.1016/j.triboint.2025.110884

M3 - 文章

AN - SCOPUS:105007680392

SN - 0301-679X

VL - 211

JO - Tribology International

JF - Tribology International

M1 - 110884

ER -

An effective strategy to improve the tribological performance of Ni55Ti45 alloy at elevated temperatures by oxygen doping

Abstract

Keywords

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