Influence of low-plasticity ball burnishing on the high-cycle fatigue strength of medium carbon AISI 1045 steel

The aim of this paper is to quantify the improvement in the high-cycle fatigue strength of AISI 1045 normalized steel after low-plasticity ball burnishing, providing engineering data and coefficients useful for fatigue analysis and design. The specimens, both non-treated and ball-burnished, were tested in a rotating bending fatigue machine up to 3.25 x 10(6) cycles. It is demonstrated that the fatigue strength of the ball-burnished specimens, when compared with the non-treated specimens, improves for 3 x 10(4) to 10(6) cycles, and that the bending fatigue limit is increased by 21.25%. An analytical expression has been obtained for the variation of the coefficient relating the fatigue strength of the non-treated and ball-burnished specimens with life. As an alternative to this coefficient, a uniaxial effective mean stress that remains constant in time is defined and obtained for each stress level. For fatigue calculations, this effective mean stress is equivalent to the actual biaxial residual stresses, which change in time because of cyclic relaxation and other effects produced by ball burnishing. This work also provides experimental data and analyses of the surface roughness, fractography, in-depth residual stresses, and cyclic relaxation effects. (C) 2013 Elsevier Ltd. All rights reserved.