Optimal design of V-type ultrasonic

Optimal design of V-type ultrasonic motor

Abstract：V-type ultrasonic linear motor fabricated using a simple punching technique was proposed to utilize as an actuator of small precision machine. The stator of the motor is composed of a thin elastic body and four ceramics attached to the upper and bottom areas of the body. The ceramics have each direction of polarization. When two harmonic voltages with a 90° phase difference are applied to the ceramics, symmetric and anti-symmetric displacements will generate at the tip to produce an elliptical motion. A finite element analysis (ATILA) was conducted to simulate the motion pattern for the contact tip of the stator. To develop a model that generates the maximum displacement at contact tip, the FEM program was used for various lengths. In addition, an optimal model was chosen by considering the magnitude and shape of the displacement according to changes in frequency. The maximum elliptical displacement is shown by W2L11 model, which has a ratio of ceramic width to length of 1:5.5. However, the displacement of the contact tip is reduced by the bucking phenomenon if the ratio is larger than 1:6. 作者： Author： JEONG S S  PARK C H  PARK T G 作者单位： School of Mechatronics, Changwon National University, Changwon 641-773, Korea 期 刊： 中南大学学报(英文版)   EISCI Journal： JOURNAL OF CENTRAL SOUTH UNIVERSITY OF TECHNOLOGY(ENGLISH EDITION) 年，卷(期)： 2010, 17(6) 分类号： U4 Keywords： ultrasonic motor    piezo-actuator    finite element method    optimal design    elliptical motion    机标分类号： TM3 R4 机标关键词： ultrasonic motor    ultrasonic linear motor    finite element analysis    maximum displacement    optimal model    tip    difference    direction    addition    However    develop    changes    simple    upper    small    thin    four    two    FEM 基金项目： the Second Stage of Brain Korea 21 Project，the National Research Foundation of Korea

【Optimal design of V-type ultrasonic 】相关文章：

Optimal Design of Stewart Platform Safety Mechanism07-15

Design of Guided Air Ammunitions Optimal Guidance Law08-02

Optimal Design of Compliant Trailing Edge for Shape Changing08-17

Topology Optimal Design of Material Microstructures Using Strain Energy-based Method07-15

Rapid Optimal Generation Algorithm for Terrain Following Trajectory Based on Optimal Control07-05

Letter Design01-01

Application of ultrasonic to speciation analysis of heavy metals in soil01-18

Decomposed characteristic of azo dyes by ozonization with ultrasonic enhancement07-04

Scannable Resume Design01-01