Effect of doping particles on the wear behavior of tungsten materials at varying temperatures

In the present work, the impact of second-phase particles on the friction and wear properties of tungsten (W) materials across various temperatures was thoroughly examined through detailed morphology characterization and elemental analysis. The results demonstrate that the addition of particles redu...

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Main Authors: C.S. Ding, X.F. Xie, J.F. Yang, R. Liu, X.B. Wu, X.P. Wang, Z.M. Xie
Format: Article
Language:English
Published: Elsevier 2025-03-01
Series:Journal of Materials Research and Technology
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Online Access:http://www.sciencedirect.com/science/article/pii/S2238785425001619
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author C.S. Ding
X.F. Xie
J.F. Yang
R. Liu
X.B. Wu
X.P. Wang
Z.M. Xie
author_facet C.S. Ding
X.F. Xie
J.F. Yang
R. Liu
X.B. Wu
X.P. Wang
Z.M. Xie
author_sort C.S. Ding
collection DOAJ
description In the present work, the impact of second-phase particles on the friction and wear properties of tungsten (W) materials across various temperatures was thoroughly examined through detailed morphology characterization and elemental analysis. The results demonstrate that the addition of particles reduces the temperature at which severe adhesive wear occurs while also lowering the wear rate at medium temperatures (200 °C–400 °C). Furthermore, the doped particles alter the friction mechanism of W at high temperatures (>400 °C), where oxide layer lubrication typically dominates. However, in particle-doped W alloys, these particles are prone to detachment due to interactions with the thick, loose oxide layer. This detachment disrupts the lubrication effect, resulting in increased friction and substantial mass loss. Overall, this study offers a comprehensive understanding of the effect of doping particles on the wear performance of W alloys, and offers theoretical guidance for the design of highly wear-resistant W materials.
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publisher Elsevier
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series Journal of Materials Research and Technology
spelling doaj-art-5d4724c70e9042a9b1d5eb393edb0fe42025-01-24T04:45:19ZengElsevierJournal of Materials Research and Technology2238-78542025-03-013516801689Effect of doping particles on the wear behavior of tungsten materials at varying temperaturesC.S. Ding0X.F. Xie1J.F. Yang2R. Liu3X.B. Wu4X.P. Wang5Z.M. Xie6Key Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, China; University of Science and Technology of China, Hefei, 230026, ChinaKey Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, China; Corresponding author.Key Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, ChinaKey Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, ChinaKey Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, ChinaKey Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, ChinaKey Laboratory of Materials Physics, Institute of Solid State Physics, HFIPS, Chinese Academy of Sciences, Hefei, 230031, China; Corresponding author.In the present work, the impact of second-phase particles on the friction and wear properties of tungsten (W) materials across various temperatures was thoroughly examined through detailed morphology characterization and elemental analysis. The results demonstrate that the addition of particles reduces the temperature at which severe adhesive wear occurs while also lowering the wear rate at medium temperatures (200 °C–400 °C). Furthermore, the doped particles alter the friction mechanism of W at high temperatures (>400 °C), where oxide layer lubrication typically dominates. However, in particle-doped W alloys, these particles are prone to detachment due to interactions with the thick, loose oxide layer. This detachment disrupts the lubrication effect, resulting in increased friction and substantial mass loss. Overall, this study offers a comprehensive understanding of the effect of doping particles on the wear performance of W alloys, and offers theoretical guidance for the design of highly wear-resistant W materials.http://www.sciencedirect.com/science/article/pii/S2238785425001619TungstenSecond-phase particlesWear behaviorMicrostructureOxidation
spellingShingle C.S. Ding
X.F. Xie
J.F. Yang
R. Liu
X.B. Wu
X.P. Wang
Z.M. Xie
Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
Journal of Materials Research and Technology
Tungsten
Second-phase particles
Wear behavior
Microstructure
Oxidation
title Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
title_full Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
title_fullStr Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
title_full_unstemmed Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
title_short Effect of doping particles on the wear behavior of tungsten materials at varying temperatures
title_sort effect of doping particles on the wear behavior of tungsten materials at varying temperatures
topic Tungsten
Second-phase particles
Wear behavior
Microstructure
Oxidation
url http://www.sciencedirect.com/science/article/pii/S2238785425001619
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