Litcius/Paper detail

Thermal Network Modeling and Thermal Stress Evaluation for a High-Power Linear Ultrasonic Motor

Xiang Li, Chaohao Kan, Taian Ren, Faxuan Chen, Peng-Tao Guo, Zhiyuan Yao

2022IEEE Transactions on Industry Applications15 citationsDOI

Abstract

This article presents a high-efficient thermal analysis methodology and outlines a set of useful design guidelines for high-power linear ultrasonic motors. A thermal network modeling technique is introduced to rapidly calculate the temperature rise for a typical high-power linear ultrasonic motor with a V-shaped stator. First, a six-terminal equivalent circuit for Langevin piezoelectric transducer considering the prestress bolt loss and all three losses in piezoelectrics is proposed to calculate the stator loss. Then, the calculated losses along with the friction loss are used as inputs into the developed thermal network model to calculate the temperature rise of critical parts of the motor. Furthermore, an analytical mechanical model combined with the proposed thermal network is established to calculate the temporal–spatial distribution of the stator thermal stress for evaluating its fatigue under the heating-up process. Finally, some experimental measurements and finite-element simulations are conducted to validate the theoretical analyses.

Topics & Concepts

Ultrasonic motorStatorFinite element methodThermalPiezoelectricityPower (physics)Thermal analysisStress (linguistics)Linear motorTransducerUltrasonic sensorAcousticsMechanical engineeringMaterials scienceEngineeringElectronic engineeringControl theory (sociology)Structural engineeringElectrical engineeringComputer sciencePhysicsLinguisticsArtificial intelligenceQuantum mechanicsMeteorologyControl (management)PhilosophyPiezoelectric Actuators and ControlAdvanced MEMS and NEMS TechnologiesAdhesion, Friction, and Surface Interactions
Thermal Network Modeling and Thermal Stress Evaluation for a High-Power Linear Ultrasonic Motor | Litcius