+Advanced Search
Home > Archive>Volume 49, Issue 7, 2020 >2393-2399. DOI:10.12442/j.issn.1002-185X.20190957
PDF HTML XML Export Cite reminder
Fretting Wear Behavior of TC4 Alloy in Different Environmental Media
Author:
Affiliation:

College of Petrochemical Technology,Lanzhou University of Technology

Clc Number:

TH117.1

Fund Project:

investigation of chemistry-mechanics effect and multi-scale damage mechanism in fretting corrosion fatigue

  • Article
    • | |
  • Metrics
    • |
  • Reference [26]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    The fretting wear behaviors of TC4 titanium alloy under different displacement amplitudes in air, pure water and the artificial seawater of 3.5% NaCl were studied by SRV-IV fretting wear test rig. Scanning electron microscopy and laser scanning confocal microscopy were used to characterize the surface morphology, wear volume and wear profile of the wear scar. Fretting wear mechanism of titanium alloy in different environmental media was analyzed. The results showed that the friction coefficient increase first and then decrease with the increase of the displacement amplitude, while the wear volume increase. Under the dry friction condition, the friction coefficient is higher and unstable, and the wear volume is smaller. The wear mechanism is mainly abrasive wear, adhesive wear and oxidative wear. Compared with dry friction, the friction coefficient in the aqueous water is lower, the wear volume is significantly increased, and the friction coefficient in the artificial seawater is lower and more stable, and the wear profile is deeper, indicating that there is a "positive" interaction between corrosion and wear. The fretting wear mechanism of TC4 alloy in pure water is mainly fatigue wear and abrasive wear; while the fretting wear mechanism in artificial seawater is mainly abrasive wear and corrosion wear.

    Reference
    [1] Zhou Zhongrong(周仲荣), Leo Vincent..Fretting wear(微动磨损)[M]. Beijing:Science Press, 2002
    [2] Zheng J F , Luo J , Mo J L , et al . Tribology International[J], 2010, 43(5):906-911
    [3] Fan Na(范娜),Wang Yunxia(王云霞),Wang Qiufeng(王秋凤), et al .Tribology(摩擦学学报)[J], 2016, 36(5):555-561
    [4] Kirk A M , Shipway P H , Sun W , et al. Wear[J], 2019, 426-427:694-703
    [5] Tang C B , Liu D X , Tang B , et al. Applied Surface Science[J], 2016, 390:946-958
    [6]Yang Q , Zhou W L, Niu Z Q , et al. Surface and Coatings Technology[J], 2018, 349:1098-1106
    [7] Shen F , Hu W , Voyiadjis G Z , et al. Wear[J], 2015, 338-339:394-405
    [8] Chang Hui(常辉),Liao Zhiqian(廖志谦),Wang Xiangdong(王向东) . Titanium alloys for marine applications(海洋工程钛金属材料)[M].Chemical Industry Press, 2017
    [9]Mao Y S , Wang L , Chen K M , et al. Wear[J], 2013, 297(1-2):1032-1039
    [10] Barril S , Mischler S , Landolt D . Wear[J], 2005, 259(1):282-291
    [11] He Qian(何倩) ,Sun Deen (孙德恩),Zeng Xianguang(曾宪光). China Surface Engineering(中国表面工程)[J], 2018,31(1):74-80
    [12] Chen J , Zhang Q . Transactions of Nonferrous Metals Society of China[J], 2016, 26(4):1011-1018
    [13] He Yafeng(何亚峰) ,Lu Wenzhuang(卢文壮) ,Gan Weimin(干为民) .Journal of South China University of Technology (Natural Science Edition)(华南理工大学学报自然科学版)[J],2017(6)
    [14] Wang Linqing(王林青), Zhou Yongtao(周永涛) , WangJunjun(王军军) , et al.Tribology(摩擦学学报)[J],2019,39(02):206-212
    [15] Ding Hongyan(丁红燕) ,Dai Zhendong(戴振东) .Rare Metal Materials and Engineering(稀有金属材料与工程)[J],2007(05):778-781
    [16] Ding Hongyan(丁红燕) ,Dai Zhendong(戴振东) ,Xu Tao(徐洮) .Lubrication Engineering(润滑与密封)[J],2005(6):28-29
    [17] Chen Jun(陈君) ,Yan Fengyuan(闫逢元) ,Wang Jianzhang(王建章) .Tribology(摩擦学学报)[J], 2012, 32(1):1-6
    [18] Chen J , Yan F Y . Transactions of the Nonferrous Metals Society of China[J], 2012, 22(6):1356---1365
    [19] Yu Shurong(俞树荣) ,Sun Lu (孙璐),Song Wei(宋伟) , et al.Rare Metal Materials and Engineering(稀有金属材料与工程)[J],2019,48(04):1183-1188
    [20] Song Wei(宋伟) , Sun Lu(孙璐) ,Jing Pengfei(景鹏飞) , et al.Journal of Central South University (Science and Technology)(中南大学学报自然科学版)[J],2019(2): 328-335
    [21] Li J , Lu Y H .Wear[J], 2013, 304(1-2):223-230
    [22] Li Xinxing(李新星) ,Li Yixian(李奕贤) ,Wang Shuqi(王树奇) .Chinese Journal of Rare Metals(稀有金属)[J],2015,39 (9):793-798
    [23] Wang Mengjiao(王梦娇),Wang Yunxia(王云霞),Fan Na(范娜),et al.Lubrication Engineering(润滑与密封)[J],2019,44( 2) : 14-20
    [24] Zheng Chao(郑超) ,Wei Shicheng(魏世丞) ,Liang Yi (梁义), et al.Chinese Journal of Rare Metals(稀有金属)[J],2018(10): 1018-1023
    [25] Deng Kai(邓凯),Yu Min(于敏),Dai Zhendong(戴振东),et al.Rare Metal Materials and Engineering(稀有金属材料与工程)[J],2014, 43(5):1099-110
    [26] Fan N , Wang Y X , Wang Q , et al. Lubrication Science[J], 2018
    Cited by
Get Citation

[Song Wei, Chen Qiang, Yu Shurong, He Yanni, Jing Pengfei. Fretting Wear Behavior of TC4 Alloy in Different Environmental Media[J]. Rare Metal Materials and Engineering,2020,49(7):2393~2399.]
DOI:10.12442/j. issn.1002-185X.20190957

Copy
Article Metrics
  • Abstract:
  • PDF:
  • HTML:
  • Cited by:
History
  • Received:November 15,2019
  • Revised:November 28,2019
  • Adopted:November 29,2019
  • Online: August 31,2020

Total visitors:12693031

Address:96 weiyanglu, xi'an,Shaanxi, P.R.China Postcode:710016 ServiceTel:0086-26-86231117

E-mail:rmme@c-nin.com

Copyright:Rare Metal Materials and Engineering ® 2025 All Rights Reserved Support:Beijing E-Tiller Technology Development Co., Ltd. ICP: