Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm
The flexible rotor, as a crucial component of the traveling wave rotary ultrasonic motor, effectively reduces radial friction. However, issues such as uneven contact between the stator and rotor, as well as rotor-deformation-induced stress, still persist. This paper presents an optimization method t...
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| Format: | Article |
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MDPI AG
2024-12-01
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| Series: | Micromachines |
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| Online Access: | https://www.mdpi.com/2072-666X/16/1/54 |
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| author | Bo Chen Jiyue Yang Haoyu Tang Yahang Wu Haoran Zhang |
| author_facet | Bo Chen Jiyue Yang Haoyu Tang Yahang Wu Haoran Zhang |
| author_sort | Bo Chen |
| collection | DOAJ |
| description | The flexible rotor, as a crucial component of the traveling wave rotary ultrasonic motor, effectively reduces radial friction. However, issues such as uneven contact between the stator and rotor, as well as rotor-deformation-induced stress, still persist. This paper presents an optimization method that combines the Kriging response surface model with a multi-objective genetic algorithm (MOGA). Drawing on the existing rotor structure, a novel rotor design is proposed to match the improved TRUM60 stator. During the optimization process, the contact surface between the stator and rotor is taken as the optimization target, and an objective function is established. The Kriging response surface model is constructed using Latin hypercube sampling, and an MOGA is employed to optimize this model, allowing the selection of the optimal balanced solution from multiple candidate designs. Following stator optimization, the objective function value decreased from 0.631 to 0.036, and the maximum contact stress on the rotor inner ring was reduced from 32.77 MPa to 9.96 MPa. Experimental validation confirmed the reliability of this design, significantly improving the overall performance and durability of the motor. |
| format | Article |
| id | doaj-art-6a326bd98db84cfe9b53d7294c4b4f9e |
| institution | Kabale University |
| issn | 2072-666X |
| language | English |
| publishDate | 2024-12-01 |
| publisher | MDPI AG |
| record_format | Article |
| series | Micromachines |
| spelling | doaj-art-6a326bd98db84cfe9b53d7294c4b4f9e2025-01-24T13:41:58ZengMDPI AGMicromachines2072-666X2024-12-011615410.3390/mi16010054Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic AlgorithmBo Chen0Jiyue Yang1Haoyu Tang2Yahang Wu3Haoran Zhang4School of Intelligent Equipment, Shandong University of Science and Technology, Tai’an 271019, ChinaSchool of Intelligent Equipment, Shandong University of Science and Technology, Tai’an 271019, ChinaSchool of Intelligent Equipment, Shandong University of Science and Technology, Tai’an 271019, ChinaSchool of Intelligent Equipment, Shandong University of Science and Technology, Tai’an 271019, ChinaSchool of Intelligent Equipment, Shandong University of Science and Technology, Tai’an 271019, ChinaThe flexible rotor, as a crucial component of the traveling wave rotary ultrasonic motor, effectively reduces radial friction. However, issues such as uneven contact between the stator and rotor, as well as rotor-deformation-induced stress, still persist. This paper presents an optimization method that combines the Kriging response surface model with a multi-objective genetic algorithm (MOGA). Drawing on the existing rotor structure, a novel rotor design is proposed to match the improved TRUM60 stator. During the optimization process, the contact surface between the stator and rotor is taken as the optimization target, and an objective function is established. The Kriging response surface model is constructed using Latin hypercube sampling, and an MOGA is employed to optimize this model, allowing the selection of the optimal balanced solution from multiple candidate designs. Following stator optimization, the objective function value decreased from 0.631 to 0.036, and the maximum contact stress on the rotor inner ring was reduced from 32.77 MPa to 9.96 MPa. Experimental validation confirmed the reliability of this design, significantly improving the overall performance and durability of the motor.https://www.mdpi.com/2072-666X/16/1/54ultrasonic motor rotorkrigingMOGAoptimize the design |
| spellingShingle | Bo Chen Jiyue Yang Haoyu Tang Yahang Wu Haoran Zhang Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm Micromachines ultrasonic motor rotor kriging MOGA optimize the design |
| title | Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm |
| title_full | Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm |
| title_fullStr | Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm |
| title_full_unstemmed | Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm |
| title_short | Optimization of Flexible Rotor for Ultrasonic Motor Based on Response Surface and Genetic Algorithm |
| title_sort | optimization of flexible rotor for ultrasonic motor based on response surface and genetic algorithm |
| topic | ultrasonic motor rotor kriging MOGA optimize the design |
| url | https://www.mdpi.com/2072-666X/16/1/54 |
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