2026-05-13T08:36:31Zhttps://ebiltegia.mondragon.edu/oai/request

oai:ebiltegia.mondragon.edu:20.500.11984/18482026-04-01T08:38:54Zcom_20.500.11984_473col_20.500.11984_478

00925njm 22002777a 4500 dc Perez Guisado, Ion author ARRAZOLA, PEDRO JOSE author Madariaga, Aitor author CUESTA ZABALAJAUREGUI, MIKEL author Soriano Moreno, Denis author 2021 Machining operations affect the properties of the final surface layer, and these can impact on its functional per- formance, particularly on fatigue behaviour. Among the properties of the machined surface, surface topography is one major parameter affecting fatigue behaviour. The literature review has demonstrated that stress concen- tration factors K t of the surface provide a more reliable estimation of the impact on the fatigue behaviour of machined components. Finite Element (FE) simulations can accurately calculate the stress concentration factor of machined surfaces, but they incur a high computational cost. Recent advances have shown that analytical models can reliably determine stress concentration factors of 2D roughness profiles. However, analytical models that predict stress concentration factors of 3D surface topographies are still lacking. This paper is aimed at devel- oping an analytical method to calculate the stress concentration factor K t of 3D surfaces generated by machining operations. To validate the model, a specimen of 7475-T7351 aluminium alloy was face milled and its surface topography was characterised using an Alicona IFG4 profilometer. Stress concentration factors were calculated in the selected surface regions using the proposed analytical model, and later compared to results obtained by FE simulations. The mean difference in the stress concentration factor K t calculated by the proposed analytical and FE models is of 1.53%. Importantly, the developed analytical model reduces the computing time by 3000 times compared to FE models, and enables the analysis of larger surfaces. 0020-7403 https://katalogoa.mondragon.edu/janium-bin/janium_login_opac.pl?find&ficha_no=160058 https://hdl.handle.net/20.500.11984/1848 Surface topography Stress concentration factor Fatigue Modelling An analytical approach to calculate stress concentration factors of machined surfaces