Yang Lin
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- Professor
- Supervisor of Master's Candidates
- Name (English):Yang Lin
- Name (Pinyin):Yang Lin
- School/Department:College of Aerospace Engineering
- Business Address:9-518, Ming Palace Museum Campus Arts Center 104b, Jiangjun Road Campus
- Contact Information:yanglin@nuaa.edu.cn 13601457730
- Degree:Doctoral Degree in Engineering
- Professional Title:Professor
- Alma Mater:Nanjing University of Aeronautics and Astronautics
- Teacher College:College of Aerospace Engineering
- Discipline:机械工程
航空宇航科学与技术
机械
Contact Information
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- Paper Publications
Output performance simulation and contact analysis of traveling wave rotary ultrasonic motor based on ADINA
Release time:2024-12-26 Hits:
- Impact Factor:4.7
- DOI number:10.1016/j.compstruc.2019.03.001
- Affiliation of Author(s):南京航空航天大学
- Teaching and Research Group:航空学院-精密驱动与控制研究所
- Journal:Computers & Structures
- Key Words:Traveling wave ADINA Output performance Simulation Ultrasonic motors Contact analysis
- Abstract:•Establishing a complete 3D FE model to study the TRUMs.•It can help to know the motor’s mechanical capacity before prototype manufacture.•The actual contact mechanism between stator and rotor is reflected accurately.•Torsional deformation of the rotor during rotation can be obtained.•Simulations can facilitate the stress analyses to avoid the failure of USMs.•Providing a powerful tool for structure design and performance prediction of USMs. To evaluate the response and output performance of an assembled and complete ultrasonic motor, a 3D finite element model has been proposed by a commercial finite element software ADINA. The simulated results of the output performance can be obtained, which are in good agreement with the available experimental data. Therefore, it is convenient to know the mechanical capacity of the motor before prototype manufacture. Moreover, the radial, circumferential and axial displacements of the contact nodes are acquired to simulate the real elliptical motions of the stator. Without assuming that the rotor behaves as a rigid body, the actual contact mechanism between the stator and rotor is reflected accurately. The simulation shows the distinct stress concentration issue of the motor, which can facilitate the stress analyses to avoid the failure of the motor. This study provides a powerful tool for the structure design and performance prediction of the ultrasonic motor.
- Indexed by:Journal paper
- Discipline:Engineering
- Document Type:J
- Volume:216
- Translation or Not:no
- Date of Publication:2019-03-21
- Included Journals:EI、SCI、SCIE
- Co-author:Ma, Chengcheng,Li, Xiaoniu,Zhang, Jiaojiao
- First Author:Ren, Weihao
- Correspondence Author:Yang, Lin