Investigation on Deformation Behavior in the Surface of Metal Foil with Ultrasonic Vibration-Assisted Micro-Forging

Abstract: Excitation of the acoustic field, leading to the Blaha effect, significantly affects the plasticity of a material. In the micro-forming field, the so-called impact effect is found to generate a larger amount of dislocation and produce greater plastic deformation than acoustic softening. In this study, the mechanism of deformation in the surface of the material with ultrasonic vibration assistance was investigated and compared with that in the bulk. Forging tests using a newly developed ultrasonic vibrator were… Show more

“…Drilling force decreases when UV is applied. Surface roughness is reduced by adding UV in microforging [6]. In the turning process with UV-assisted [7], forming force declines by 40% to 45% and temperature drops by 48%.…”

Effect of Ultrasonic Vibration on Forming Force in the Single-Point Incremental Forming Process

“…Drilling force decreases when UV is applied. Surface roughness is reduced by adding UV in microforging [6]. In the turning process with UV-assisted [7], forming force declines by 40% to 45% and temperature drops by 48%.…”

Effect of Ultrasonic Vibration on Forming Force in the Single-Point Incremental Forming Process

Investigation on Thermal Effect Induced by Ultrasonic Vibration on Surface Deformation Behavior During Micro-forging

Mechanical properties and microstructure evolution of T2 copper in multimodal ultrasonic vibration assisted micro-compression