An ultrasonic motor using a metal-ceramic composite actuator generating torsional displacement

Burhanettin Koc; Aydin Dogan; Yuan Xu; Robert E. Newnham; Kenji Uchino

doi:10.1143/jjap.37.5659

An ultrasonic motor using a metal-ceramic composite actuator generating torsional displacement

Burhanettin Koc, Aydin Dogan, Yuan Xu, Robert E. Newnham, Kenji Uchino

Materials Research Institute (MRI)

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

An ultrasonic motor composed of three components; a stator, a rotor and a ball bearing is proposed. The stator is made of an active piezoelectric ring, poled in the thickness direction and bonded with two windmill-like slotted metal endcaps. The stator is excited through its two electrodes, generating ultrasonic vibration in the radial direction at a radial mode resonance frequency. The two identical metal endcaps on both sides of the ring, bonded after shifting 45° with each others, transfers the radial vibration into longitudinal and tangential vibrations. The combination of these vibrations (longitudinal and tangential) generates rotation due to frictional interaction between the center part of the top endcap and the periphery of the rotor. A prototype motor with 11.0mm diameter was fabricated and its transient characteristics were measured. The maximum torque of 1.36 mNm was obtained at a speed of 480 rpm.

Original language	English (US)
Pages (from-to)	5659-5662
Number of pages	4
Journal	Japanese Journal of Applied Physics
Volume	37
Issue number	10
DOIs	https://doi.org/10.1143/jjap.37.5659
State	Published - Oct 1998

All Science Journal Classification (ASJC) codes

General Engineering
General Physics and Astronomy

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10.1143/jjap.37.5659

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title = "An ultrasonic motor using a metal-ceramic composite actuator generating torsional displacement",

abstract = "An ultrasonic motor composed of three components; a stator, a rotor and a ball bearing is proposed. The stator is made of an active piezoelectric ring, poled in the thickness direction and bonded with two windmill-like slotted metal endcaps. The stator is excited through its two electrodes, generating ultrasonic vibration in the radial direction at a radial mode resonance frequency. The two identical metal endcaps on both sides of the ring, bonded after shifting 45° with each others, transfers the radial vibration into longitudinal and tangential vibrations. The combination of these vibrations (longitudinal and tangential) generates rotation due to frictional interaction between the center part of the top endcap and the periphery of the rotor. A prototype motor with 11.0mm diameter was fabricated and its transient characteristics were measured. The maximum torque of 1.36 mNm was obtained at a speed of 480 rpm.",

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AU - Koc, Burhanettin

AU - Dogan, Aydin

AU - Xu, Yuan

AU - Newnham, Robert E.

AU - Uchino, Kenji

PY - 1998/10

Y1 - 1998/10

N2 - An ultrasonic motor composed of three components; a stator, a rotor and a ball bearing is proposed. The stator is made of an active piezoelectric ring, poled in the thickness direction and bonded with two windmill-like slotted metal endcaps. The stator is excited through its two electrodes, generating ultrasonic vibration in the radial direction at a radial mode resonance frequency. The two identical metal endcaps on both sides of the ring, bonded after shifting 45° with each others, transfers the radial vibration into longitudinal and tangential vibrations. The combination of these vibrations (longitudinal and tangential) generates rotation due to frictional interaction between the center part of the top endcap and the periphery of the rotor. A prototype motor with 11.0mm diameter was fabricated and its transient characteristics were measured. The maximum torque of 1.36 mNm was obtained at a speed of 480 rpm.

AB - An ultrasonic motor composed of three components; a stator, a rotor and a ball bearing is proposed. The stator is made of an active piezoelectric ring, poled in the thickness direction and bonded with two windmill-like slotted metal endcaps. The stator is excited through its two electrodes, generating ultrasonic vibration in the radial direction at a radial mode resonance frequency. The two identical metal endcaps on both sides of the ring, bonded after shifting 45° with each others, transfers the radial vibration into longitudinal and tangential vibrations. The combination of these vibrations (longitudinal and tangential) generates rotation due to frictional interaction between the center part of the top endcap and the periphery of the rotor. A prototype motor with 11.0mm diameter was fabricated and its transient characteristics were measured. The maximum torque of 1.36 mNm was obtained at a speed of 480 rpm.

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An ultrasonic motor using a metal-ceramic composite actuator generating torsional displacement

Abstract

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