Specifications

Classification code: 921 Mathematics - 732 Control Devices - 718 Telephone Systems

and Related Technologies; Line Communications - 717 Optical Communication - 716.3

Radio Systems and Equipment - 716 Telecommunication; Radar, Radio and Television -

711 Electromagnetic Waves

Database: Compendex

Compilation and indexing terms, © 2013 Elsevier Inc.

Authors: Xiao, Q.D.1 ; Lv, Z.L.1/肖琪聃;吕振林

Author affiliation: 1 Materials Science and Engineering, Xi'an University of Technology, Xi'an

710048, China

Corresponding author: Xiao, Q. D. (xiaoqidan253@163.com)

Source title: Energy Materials: Materials Science and Engineering for Energy Systems

Abbreviated source title: Energy Mater. Mater. Sci. Eng. Energy Syst.

Volume: 7

Issue: 3

Issue date: 2012

Publication year: 2012

Pages: 202-207

Abstract: High purity Ti 3AlC2 samples were prepared by an infiltration sintering method. The

current carrying friction and wear characteristics of high pure bulk Ti 3AlC 2 dry sliding against a

GCr15 bearing steel disc were experimentally investigated on a pin-on-disk type tester at several

sliding speeds from 20 to 60 m s -1, different electric currents from 0 to 100 A and normal

pressures from 0.1 to 0.6 MPa. It was found that the highly pure Ti 3AlC2 exhibits an increasing

friction coefficient (0.11-0.65) and an increasing wear rate (2.13-7.75X10-6 mm3 N -1 m-1) with

the electric current increasing from 0 to 100 A; the normal pressure (0.1-0.6 MPa) and the sliding

speed (20- 60 m s-1) also have a complex but relatively weak influence on them. The minimum

value of friction coefficient was 0.11 when the sliding electric current, speed and normal pressure

were set to 0 A, 60 m s -1 and 0.6 MPa; the wear rate reached the maximum value 7.75X10-6