The mechanisms of gross slip fretting wear on nickel oxide/Ti6Al4V mated surfaces

C. H. Hager Jr.; J. Hu; C. Muratore; A. A. Voevodin; R. Grandhi

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The mechanisms of gross slip fretting wear on nickel oxide/Ti6Al4V mated surfaces

机译：氧化镍/ Ti6Al4V配合表面上的总滑移微动磨损机理

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The objective of this work was to determine the mechanisms of tribofilm formation during the gross slip fretting wear of Ti6Al4V and a thick nickel oxide film. This was accomplished by conducting bench level fretting wear experiments on Ti6Al4V surfaces mated with ～75 μm thick nickel oxide scale. The nickel oxide scale was grown by oxidizing commercially pure nickel at 1000℃. The fretting wear experiments were conducted at room temperature, 150, 300, and 450℃, with a stroke length of 250 μm, at oscillation speeds of 2 and 30 Hz, and an approximate Hertzian contact stress of 650 MPa. It has been shown that at elevated temperatures, lubricious nanocrystalline tribofilms were formed in the fretting wear contact via a tribo-sintering mechanism. These tribofilms formed as transfer layers on the mated Ti6Al4V interface, and reduced the friction and wear on the mated surface at elevated temperatures.

机译：这项工作的目的是确定在Ti6Al4V的总滑动磨损和厚的氧化镍膜中形成摩擦膜的机理。这是通过在与〜75μm厚的氧化镍鳞片配合的Ti6Al4V表面上进行台式微动磨损试验来实现的。氧化镍水垢是通过在1000℃下氧化商业纯镍而生长的。微动磨损实验在室温，150、300和450℃下进行，冲程长度为250μm，振荡速度为2和30 Hz，赫兹接触应力约为650 MPa。已经表明，在升高的温度下，通过摩擦烧结机理在微动磨损接触中形成了润滑的纳米晶体摩擦膜。这些摩擦膜在配对的Ti6Al4V界面上形成为传输层，并在高温下降低了配对表面上的摩擦和磨损。

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来源
《Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear》 |2010年第10期|共10页
作者
C. H. Hager Jr.; J. Hu; C. Muratore; A. A. Voevodin; R. Grandhi;
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正文语种 eng
中图分类机械摩擦、磨损与润滑;
关键词
Fretting wear; Ti6Al4V; Gross slip; Nickel oxide; Tribo-sintering; High temperature;

机译：微动磨损;Ti6Al4V;滑移;氧化镍;摩擦烧结;高温;

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1. The mechanisms of gross slip fretting wear on nickel oxide/Ti6Al4V mated surfaces [J] . C. H. Hager Jr., J. Hu, C. Muratore, Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2010,第9a10期

机译：氧化镍/ Ti6Al4V配合表面上的总滑移微动磨损机理
2. The use of nickel graphite composite coatings for the mitigation of gross slip fretting wear on Ti6Al4V interfaces [J] . C. H. Hager Jr., J. Sanders, S. Sharma, Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2009,第9a10期

机译：使用镍石墨复合涂层减轻Ti6Al4V界面上的滑移微动磨损
3. Unlubricated gross slip fretting wear of metallic plasma-sprayed coatings for Ti6Al4V surfaces [J] . C. H. Hager Jr., J. H. Sanders, S. Sharma Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2008,第3a4期

机译：Ti6Al4V表面的金属等离子喷涂涂层的未润滑毛滑磨损
4. FRETTING WEAR OF COATED SURFACES UNDER GROSS SLIP CONDITIONS [C] . H. Jerbi, D. Nelias, M-C. Baietto ASME biennial conference on engineering systems design and analysis . 2014

机译：毛滑条件下的涂层表面微动磨损
5. Mechanisms of nickel-based coatings for fretting wear mitigation of titanium-aluminum-vanadium interfaces. [D] . Hager, Carl H., Jr. 2008

机译：镍基涂层用于缓解微动磨损的钛铝钒钒界面的机理。
6. Effects of Plasma ZrN Metallurgy and Shot Peening Duplex Treatment on Fretting Wear and Fretting Fatigue Behavior of Ti6Al4V Alloy [O] . Jingang Tang, Daoxin Liu, Xiaohua Zhang, 2016

机译：等离子ZrN冶金和喷丸双相处理对Ti6Al4V合金微动磨损和微动疲劳行为的影响
7. Gross slip fretting wear performance of a layered thin W-DLC coating: Damage mechanisms and life modelling [O] . A.L. Mohd Tobi, P.H. Shipway, S.B. Leen 2011

机译：层状薄W-DLC涂层的总体滑移磨损性能：损坏机制和寿命造型
8. Unlubricated Gross Slip Fretting Wear of Metallic Plasma Sprayed Coatings for Ti6A14V Surfaces [R] . Hager, J. C. , Sanders, J. H. , Sharma, S. K. 2006

机译：Ti6a14V表面金属等离子喷涂涂层的无涂层总滑动磨损磨损

The mechanisms of gross slip fretting wear on nickel oxide/Ti6Al4V mated surfaces

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