Download This PaperEffect of Combined Plasma Zirconizing and Ultrasonic Surface Rolling Process on the High-Temperature Fatigue Behavior of Tc11 Titanium Alloy
37 Pages Posted: 24 Oct 2024
Abstract
To boost the fatigue resistance characteristics of TC11 titanium alloy under thermo-mechanical coupling, the effects of plasma zirconizing (Zr), ultrasonic surface rolling process (USRP), and the plasma zirconizing followed by USRP treatment (Zr+USRP) on the high-temperature fatigue behavior of TC11 titanium alloy were investigated. The findings indicate that the plasma zirconizing induced microstructural weakening and stress concentration in surface regions, reducing the fatigue resistance at 500 ℃. The USRP treatment markedly improved the fatigue resistance of TC11 alloy samples at 500 ℃. And this enhancement was attributed to the surface layer microstructural refinement, surface roughness reduction, the introduction of compressive residual stress (CRS) field characterized by a deep distribution and high magnitude, which suppressed the initiation and propagation of fatigue cracks at high temperature. Furthermore, the high-temperature fatigue resistance of TC11 alloy samples was further reinforced by the Zr+USRP combined treatment. Plasma zirconisation produced a solid solution strengthening effect pinning the dislocations formed treated by the USRP, improving the CRS field stability and microstructural stability of the TC11 alloy treated using USRP in the thermo-mechanical coupling environment. As a result, the initiation and propagation of fatigue cracks in TC11 alloy had been effectively prevented under high-temperature conditions.
Keywords: TC11 titanium alloy, High-temperature fatigue, Plasma zirconizing, Ultrasonic surface rolling process, Compressive residual stress stability
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