Sitemap  |  Home  |  Contact  |  CAS  |      中文
 
 
  ·About us
  ·Research
  ·People
  ·International Cooperation
  ·News
  ·Papers of Tribology
  ·Papers of Journal of Molecular Catalysis
  ·Papers of Analysis and Testing Technology and Instruments
  ·Resources
  ·Education & Training
  ·Join Us
  ·Societies & Publications
  ·Papers
  ·Living in Gansu
  ·Links
  ·Sitemap
  ·Pictures
  ·Special
  ·Research Group Page
  ·zhangjunyan
  ·yanxingbin

Location: Home>Papers of Tribology
Fretting Wear of a High-Performance Plasma Nitrided Steel
2012-12-11 ArticleSource:
Close Text Size: A A A Print

QU Shengguan1, WANG Guanghong1*, LI Wenlong1, LI Xiaoqiang1, YANG Maosheng2

(1.School of Mechanical and Automatize Engineering, South China University of Technology, Guangzhou 510640, China 2. Institute for Structural Materials, Central Iron and Steel Research Institute, Beijing 100081, China )

Abstract: Plasma nitriding is applied on the surface of a kind of high-performance bearing steels. The microstructure and the microhardness of the nitrided layer are analyzed, and the fretting friction and wear properties of the plasma nitrided steel are investigated at the SRV IV tribo-meter at room temperature. The results indicate that the surface of every plasma nitrided sample formed a higher hardness layer, the maximum hardness of the layer was as 2.8 times as that of the matrix. Without lubrication, the friction coefficient and wear volume are reduced approximately by 25%, 80%, respectively, and the wear mechanisms of nitrided specimens are oxidation wear and spalling wear of oxides. Under oil lubrication, the friction coefficient and the wear volume are reduced approximately by 36% and 97%, respectively, and the wear mechanisms of nitrided specimens are abrasive wear and fine massive spalling by crack extension. Plasma nitrided sample shows much better wear resistance than that the substrate.

Key words: plasma nitride; fretting wear; friction coefficient; spalling; abrasive wear

E-mail: qushg@scut.edu.cn 

Tribology, Vol. 32, Issue 5, 2012, 486~492

Address: No.18,Tianshui Middle Road,Lanzhou,P.R.China
ZIP Code:730000 Tel: 86-0931-4968009  Fax: 86-0931-8277088
E-mail: webeditor@licp.cas.cn