Structure, microhardness and damping characteristics of Al matrix composite reinforced with AlCuFe or Ti using ultrasonic impact peening

“…The curvature radius (R¼20 mm) of the pin surface is close but slightly lower than that of the gauge section of the treated specimen. The induced frequency of impacts f I in this loading scheme was about 3 kHz [27][28][29][30]. It is of importance that high transversal constituent of load was applied to the treated surface of specimen.…”

Enhanced fatigue behavior of powder metallurgy Ti–6Al–4V alloy by applying ultrasonic impact treatment

“…The curvature radius (R¼20 mm) of the pin surface is close but slightly lower than that of the gauge section of the treated specimen. The induced frequency of impacts f I in this loading scheme was about 3 kHz [27][28][29][30]. It is of importance that high transversal constituent of load was applied to the treated surface of specimen.…”

Enhanced fatigue behavior of powder metallurgy Ti–6Al–4V alloy by applying ultrasonic impact treatment

“…Recent numerical studies emphasized on the influence of mesh type, material properties, boundary conditions, pin tool size, modeling strategy and material hardening rules on computed numerical results [13,15,16]. It was well known that the isotropic hardening model is valid for monotonic loading [9].…”

Numerical Simulation of Residual Stresses in Welding and Ultrasonic Impact Treatment Process

“…In recent years, the mechanical properties of materials have been investigated by many researchers [5,6]. However, the dynamic behavior of the impacted material during the UIT process is rarely reported.…”

Numerical analysis of the residual stress in ultrasonic impact treatment process with single-impact and two-impact models