卷:127 | |
Experimental study on the effect of the milling condition of an aluminum alloy on subsurface residual stress | |
Article | |
关键词: SURFACE INTEGRITY; DISTORTION; PREDICTION; PARTS; PLATE; | |
DOI : 10.1007/s00170-023-11921-0 | |
来源: SCIE |
【 摘 要 】
Aluminum alloys used in monolithic parts for aerospace applications are subjected to distortion and residual stress (RS) generated by milling, affecting the product fatigue life. Particularly, the change in RS with depth (z) has a characteristic distribution with a maximum compressive RS at a z several tens of micrometers from the surface; however, the RS value depends on the measurement method used. In this study, the RS distribution with z from the surface after milling was measured for the AA7050-T7451 aluminum alloy by two-dimensional X-ray diffraction (2D method). The results were compared with those of four prior measurement methods, and the validity of 2D method was verified. The changes in subsurface RS with z showed similar distributions under all measurement conditions except when cos(& alpha;)-XRD was employed. The 2D method provides high repeatability. The in-plane RS distribution was also measured using 2D method to investigate the effect of milling conditions on this distribution. The RS values varied markedly depending on the measurement position, particularly at a small collimator diameter of 0.146 mm, allowing detection of localized extreme RS values. The maximum RS at z = 0 mm was - 85.6 MPa at a cutting speed of v(c) = 200 m/s and feed per tooth of f(z) = 0.05 mm, while it was - 16 MPa for v(c) = 450 m/s and 6.8 MPa for f(z) = 0.2 mm, revealing that the compressive RS changes to tensile RS as v(c) and f(z) increase.
【 授权许可】
Free