Experimental analysis on autoresonant control of ultrasonically assisted drilling
Experimental analysis on autoresonant control of ultrasonically assisted drilling
The target of this paper is to employ autoresonant control technique to maintain the nonlinear oscillating mode at resonance (ultrasonic vibration at the tip of a drill bit at a desired level) during vibro-impact process. In order to achieve this, an autoresonant control system which intends to provide the possibility of self-tuning and self-adaptation mechanism for an ultrasonic vibrating system to maintain the resonant regime of oscillations automatically by means of positive feedback was developed and manufactured. The autoresonant control system was implemented through a ‘controlled variable’ transformation and amplification. Three feedback control strategies were employed depending on the attributes of the ‘manipulated variables’. Mechanical feedback control uses the displacement signal at the end of an ultrasonic transducer. The other two control strategies are current feedback control and power feedback control. The current feedback control employs the current flowing through the piezoceramic rings as the ‘controlled variable’ while power feedback control takes into account both current and power of an ultrasonic vibrating system.
In order to investigate the tool effect on the established autoresonant control system, two sizes of drill bits with diameters 3 mm and 6 mm were employed in combination with three autoresonant control strategies. These were executed in drilling aluminium alloys 1050 with hardness 45 HV with a fixed rotational speed combined with several feed rates. Controlled variables, responding variables, feed force reduction were monitored. Holes quality and surface finish examinations supplement the analysis of the efficiency of the control systems.
ultrasonically assisted drilling, vibration control, autoresonant control, vibro-impact
57-66
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Meadows, A.
de8171f0-a4d3-4135-b43b-0f8e59199426
Babitsky, V.
5931d50f-fda9-4b88-99a3-e557aadff2a9
Parkin, R.
297028ac-a5e0-4329-a9dc-04fc2778fffd
29 May 2015
Li, Xuan
ed01c0d5-68e0-4abe-8642-5b9ebf153314
Meadows, A.
de8171f0-a4d3-4135-b43b-0f8e59199426
Babitsky, V.
5931d50f-fda9-4b88-99a3-e557aadff2a9
Parkin, R.
297028ac-a5e0-4329-a9dc-04fc2778fffd
Li, Xuan, Meadows, A., Babitsky, V. and Parkin, R.
(2015)
Experimental analysis on autoresonant control of ultrasonically assisted drilling.
Mechatronics, 29, .
(doi:10.1016/j.mechatronics.2015.05.006).
Abstract
The target of this paper is to employ autoresonant control technique to maintain the nonlinear oscillating mode at resonance (ultrasonic vibration at the tip of a drill bit at a desired level) during vibro-impact process. In order to achieve this, an autoresonant control system which intends to provide the possibility of self-tuning and self-adaptation mechanism for an ultrasonic vibrating system to maintain the resonant regime of oscillations automatically by means of positive feedback was developed and manufactured. The autoresonant control system was implemented through a ‘controlled variable’ transformation and amplification. Three feedback control strategies were employed depending on the attributes of the ‘manipulated variables’. Mechanical feedback control uses the displacement signal at the end of an ultrasonic transducer. The other two control strategies are current feedback control and power feedback control. The current feedback control employs the current flowing through the piezoceramic rings as the ‘controlled variable’ while power feedback control takes into account both current and power of an ultrasonic vibrating system.
In order to investigate the tool effect on the established autoresonant control system, two sizes of drill bits with diameters 3 mm and 6 mm were employed in combination with three autoresonant control strategies. These were executed in drilling aluminium alloys 1050 with hardness 45 HV with a fixed rotational speed combined with several feed rates. Controlled variables, responding variables, feed force reduction were monitored. Holes quality and surface finish examinations supplement the analysis of the efficiency of the control systems.
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More information
Accepted/In Press date: 17 May 2015
Published date: 29 May 2015
Keywords:
ultrasonically assisted drilling, vibration control, autoresonant control, vibro-impact
Identifiers
Local EPrints ID: 497441
URI: http://eprints.soton.ac.uk/id/eprint/497441
ISSN: 0957-4158
PURE UUID: 37baed7e-4f38-416c-8a1c-93926e7df182
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Date deposited: 22 Jan 2025 18:04
Last modified: 23 Jan 2025 03:15
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Contributors
Author:
Xuan Li
Author:
A. Meadows
Author:
V. Babitsky
Author:
R. Parkin
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