It is found that thesystematic operating performance and service life of ultra precision mechanics or micro mechanicsare determined to a great eatent by friction and wear on nanometer scale , so it is most important tounderstand micro friction and wear.

Based on the surface analysis,the mechanism of micro-scale abrasive wear was discussed.

Micro-scale abrasive wear was an important reason for the invalidation of metal implanted materials, and the particularity of body internal environment result in the micro-scale abrasive wear of metal implanted materials different from general micro-scale abrasive wear.

The micro-scale abrasive wear behaviors of TAMZ alloy were studied using a TE66 micro-scale abrasion tester.

Study of fretting wear behavior of K417 nickel base superalloy;

Fretting wear behavior of CuS nanoparticles in urea grease was studied in fretting wear tester.

The microstructure and microhardness of the joints were tested by means of optical microscope and microhardness tester,the fretting wear behavior of substrate and surfaced metals in room temperature were investigated on a PLINT fretting wear test rig.

Mechanism Analysis of Fretting of the Packed Box in a Super High Pressure Compressor and Its Slow-Up Method;

The Situation of the fretting Research for Engineering Ceramics;

Research on gear′s fretting in wind power station