The influence from PTFE on surface and sub-surface damages of glass fiber reinforced PPS

Polymer composites are common materials for tribological components, even at relatively high operating temperatures. One advantage is the possibility to add low friction additives, such as PTFE, to the base material. In this paper the influence of such additives was studied, with focus on surface and sub -surface damages. The polymer composites were PPS with glass fibers (PPS -F), PPS with glass fibers and PTFE (PPS -L) and PEEK with carbon fibers, graphite and PTFE (PEEK -L). A reciprocating ball -on -disc test set-up, with ball bearing steel balls as counter material, was used with 5 N and 15 N normal load. The tests were run for 2,000 and 10,000 cycles in room temperature, 80 degrees C and 120 degrees C. PPS -F showed high friction (mu approximate to 0.4-0.5) and severe surface damage of both the polymer and the counter surface. Sub -surface cracks, detachment of fibers from the polymer and a deformed surface layer was revealed, when studied in cross section. The load and temperature had negligible effect on the friction, however a higher temperature resulted in more surface damage of the PPS -F. PPS -L and PEEK -L showed relatively low friction (mu approximate to 0.1) and superficial surface damage. XPS analysis revealed a thin tribofilm of PTFE in the wear track for PPS -L.