Fatigue and corrosion-fatigue behavior of the β-metastableTi-5Al-5Mo-5V-3Cr alloy processed by laser powder bedfusion
Citation
Kaya, Ali C., Alcântara, Erika Gabriele A., Meinke, R., Selve, S., Fleck, C. (2024). Fatigue and corrosion-fatigue behavior of the β-metastableTi-5Al-5Mo-5V-3Cr alloy processed by laser powder bedfusion. Fatigue & Fracture of Engineering Materials & Structures, 47, 3832-3847.Abstract
We performed rotating bending tests and axial (tension-compression) loadincrease and constant amplitude high-cycle fatigue tests in air and Hanks' balanced salt solution (HBSS) on the β-metastable titanium alloy Ti-5Al-5Mo-5V3Cr, processed by laser powder bed fusion (LPBF-M), solution-treated and
aged, and shot-peened. Rotating bending loading in air revealed a strong influence of process-induced flaws on fatigue endurance. Especially in the highcycle fatigue range and the transition region, the stochastic distribution of the
flaws and flaw sizes led to a high scatter of the number of cycles to failure. The
axial load-increase tests yielded a good fatigue life estimation, with a negligible
difference between air and HBSS. The cyclic deformation behavior in HBSS
was also strongly influenced by the local microstructure and defect distribution, and, thus, by crack formation and propagation. Plastic deformation and
microcrack growth interact, and their relative amount resulted in different progressions of the plastic strain amplitude over the number of cycles for different
specimens. Changes in the free corrosion potential and the corrosion current
were highly sensitive indicators for fatigue-induced damage on the rough surfaces, which was correlated to the microscopic examination, fracture surface
features, and the fatigue crack development.