Study of the mild and severe wear transition in dry wear and boundary lubricated wear.

The wear and friction mechanisms that occur during the sliding wear, as well as the transition from mild to severe wear regimes are influenced by the normal load applied, roughness, temperature and humidity, the variables more frequently studied. However, the assessment of debris removal during the sliding wear and oil influence with lubricant additive (e.g. Stearic Acid C18H32O2) in the boundary/dry lubrication needs further understanding of the mechanisms and the load that occur a wear transition from mild to severe wear. The aim in this work is the characterization and evaluation the contact surface without debris in sliding surface (cleaning of the wear track) and the wear surface in boundary lubrication tests. The materials studied are: the pin AISI 4140 - 435 HV30 steel and the disc AISI H13 - 435 e 530 HV30 steel. Firstly were made conventional tribological tests with two disc hardness. Then, tests with the cleaning of the wear track were made. The results showed that the hardness and the absence of debris influence in the wear transition regime. The hardness influence is observed only when the conventional tests were made. When the counter body hardness increased, the transition from mild to severe wear extends to greater loads. The debris influence was evidenced in tests with the cleaning of the wear track, and showed that greater loads are needed from mild to severe wear transition. For the lubricated tests, the hardness of the disk was 530 HV. The results shown that the concentration of the lubricant additive and the normal load applied are determinant variables to decreasing the friction coefficient. The lubricant additive action is critical in low loads, and in high loads only the increasing of the load is needed to maintain the low friction. In addition, in the high load applied, the failure of the lubricant film occurs with the increase of the sliding time, and higher additive concentrations are needed to maintain constant the friction coefficient. (AU)