Effect of Ultrasonic Vibration on Coefficient of Friction during Strip Drawing

Abstract: Effect of ultrasonic vibration on coefficient of friction between a rigid steel die and plastically deformed metal has been studied. The coefficient of friction was measured during a strip-drawing operation with and without application of ultrasonic vibration. The application of ultrasonic vibration during the drawing process substantially reduces the coefficient of friction and die stresses.

“…The advantage of conducting ultrasonic tension tests, rather than just ultrasonic compression tests, in this investigation is that the effects of contact, in particular friction effects, are eliminated. Hence, the measured reduction in the maximum oscillatory stress cannot be attributed only to contact conditions as suggested in some previous studies [13,18,19].…”

“…This explanation has often been rebuffed in the literature [2,8,15], partly because it is known that there is no significant increase in specimen bulk temperature during ultrasonic compression tests, and also because it is known that significant absorption of ultrasonic waves to cause resonance of dislocations can only occur at 100 MHz frequencies and not in the low kHz ultrasonic range [19]. However, it is clear from the experimental data, that neither the tension or compression tests satisfy the description of stress superposition and, since there is no contact friction effect in the tension test data, the effects of a temporary change in materials properties is investigated, first for the tension test FE model and then for the compression test model.…”

Modelling the effects of superimposed ultrasonic vibrations on tension and compression tests of aluminium

“…The advantage of conducting ultrasonic tension tests, rather than just ultrasonic compression tests, in this investigation is that the effects of contact, in particular friction effects, are eliminated. Hence, the measured reduction in the maximum oscillatory stress cannot be attributed only to contact conditions as suggested in some previous studies [13,18,19].…”

“…This explanation has often been rebuffed in the literature [2,8,15], partly because it is known that there is no significant increase in specimen bulk temperature during ultrasonic compression tests, and also because it is known that significant absorption of ultrasonic waves to cause resonance of dislocations can only occur at 100 MHz frequencies and not in the low kHz ultrasonic range [19]. However, it is clear from the experimental data, that neither the tension or compression tests satisfy the description of stress superposition and, since there is no contact friction effect in the tension test data, the effects of a temporary change in materials properties is investigated, first for the tension test FE model and then for the compression test model.…”

Modelling the effects of superimposed ultrasonic vibrations on tension and compression tests of aluminium

“…Many early investigations reported that by superimposing an ultrasonic excitation on the static load during plastic deformation, the flow stress was reduced. This reduction in flow stress in ultrasonic metal working was attributed to several phenomena including dynamic effects of high frequency vibrated tools, alterations in material properties, local increases in temperature and changes to the interface friction condition [1][2][3].…”

Superimposed ultrasonic oscillations in compression tests of aluminium

“…For the metal drawing process a reduction in drawing and die forces was observed. Static friction forces subject to vibrations are reduced and a change in elastoplastic deformation of the contact in a static friction joint is observed [5]. Another investigation in plastic forming showed that ultrasonic oscillations apply additional acoustic stress that affects friction resulting in lower drawing forces [6].…”

“…Rozner et al [5] showed that ultrasonic vibration effects the friction forces between metals in strip drawing. For the metal drawing process a reduction in drawing and die forces was observed.…”

Friction effects between ultrasonic cutting blade and sheet stack