Piston Ring Dynamic Loading And Wear (Service Life)

 In addition to the axial motion, the ring also rotates around the circumference. Additional ring damage includes burn traces and seizure.

The service life of the seal made at the piston rings is determined to a large degree by the amount of wear. This includes radial wear (wear on the running surface), axial wear (wear at the flanks, "micro-welding," piston groove wear), and secondary wear at oil control rings (wear between the ring and the tubular spring and between the rails and the spacer spring). The tribological system surrounding the seal created by the piston ring is extremely complex since virtually all the normal types of wear— abrasive, adhesive, and corrosive—occur to a greater or lesser extent and effect.

The piston group accounts for about 40% of all the friction in the engine. The piston rings cause a bit more than half of this friction.

The factors that influence piston ring friction include the surface pressure, ring thickness (width of the running surface), the rail height in oil control rings, the shape (crowning) of the contact surface, the coefficient of friction for the running surface layer (only in mixed friction areas at TDC and BDC, where the piston speed is very slow), and the number of rings per piston.  Measures taken to reduce piston ring friction must not interfere with ring functioning. The sealing effect of the ring set for both gases and the lubricating oil has to be maintained undiminished.