Friction and Wear Characteristics of Iron-Chromium Alloys in Contact With Themselves and Silicon Carbide

摘要

Sliding friction experiments were conducted with various iron-chromium alloys in contact with (1) themselves, (2) single-crystal silicon carbide disks, and (3) a single-crystal abrasive grit of silicon carbide. Results indicate the coefficients of friction for the alloys sliding against them¬selves are between those for pure iron and pure chromium, and are only slightly different with 1,5, 9, 14, and 19 weight percent chromium in iron. The wear is due, primarily, to shearing, or tearing fracture, of the cohesive bonds in the bulk metal and plowing of the bulk by lumps of wear debris. There are only slight differences in the coefficients of friction for the various alloys when sliding on silicon carbide. The coefficient of friction for the alloys are higher than those for pure iron and pure chromium. Alloy hardening observed in the alloys plays a dominant role in controlling the abrasive friction and wear behavior of the alloys.