Effect of temperature on tribological properties of phenol formaldehyde resin/nitrile rubber composites

Phenol formaldehyde resin (PF)/nitrile rubber (NBR) composites were prepared by mecha-nical blending of PF and NBR, and the effect of the amount of PF on tensile strength, tear strength and hardness of PF/NBR composites was studied. The friction performance of PF/NBR composite sample A 2 (containing PF of 5 phr) with the best mechanical properties was explored at different temperatures using multifunctional integrated tester for surface properties of materials, three-dimensional surface profilometer and scanning electron microscope, and compared with that of sample A 0 not containing PF. Furthermore, the wear mechanism of PF/NBR composite was preliminarily analyzed. The results showed that when the temperature was more than 75 ℃, the friction coefficient curve of sample A 0 was on an upward trend, and at the same time, there were more holes on the surface of sample A 0, the intermolecular binding force decreased, and the wear resistance got poor. While the friction coefficient of sample A 2 remained basically stable, the abrasive wear behavior indicated that the wear mechanism varied gradually from abrasive wear to adhesive wear. Compared with sample A 0, sample A 2 could still maintain better friction performance at high temperature.