Dynamic and contact analysis of a bimodal ultrasonic motor

Author

Fung, Rong-Fong ; Yao, Chih-Min ; Chang, Dong-Guey

Author_Institution

Dept. of Mech. Eng., Chung Yuan Christian Univ., Chung Li, Taiwan

Volume

46

Issue

1

fYear

1999

Firstpage

47

Lastpage

60

Abstract

A bimodal ultrasonic motor, which operates with only one power amplifier, uses two simultaneously excited modes to drive the rotor; a longitudinal mode and a flexural mode. The equations of motion describing the vibrations and contact behavior are derived by Hamilton´s principle and the geometry constraint. The Lagrange multiplier method is used to treat the frictional contact problem. The finite element method and numerical integration scheme are used to simulate the dynamic responses of this system with and without contact. Some important factors are studied for the bimodal ultrasonic motor design. The factors include structure design, amplitude of input voltage, phase displacement, exciting frequency, and contact behavior.

Keywords

dynamic response; finite element analysis; friction; machine theory; ultrasonic motors; vibrations; Hamilton´s principle; Lagrange multiplier method; bimodal ultrasonic motor; contact behavior; dynamic responses; exciting frequency; finite element method; flexural mode; frictional contact problem; geometry constraint; input voltage; longitudinal mode; numerical integration scheme; phase displacement; simultaneously excited modes; structure design; vibrations; Aluminum; Contacts; Finite element methods; Frequency; Lagrangian functions; Piezoelectric materials; Power amplifiers; Rotors; Stators; Structural beams;

fLanguage

English

Journal_Title

Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on

Publisher

ieee

ISSN

0885-3010

Type

jour

DOI

10.1109/58.741424

Filename

741424