Study on the influence of ultra-thin non-oriented silicon steel sheet on the performance of ultra-high-speed permanent magnet motor

Author:

Rong Ye1ORCID,Wang Guanglong1ORCID,Kong Qingyi12ORCID

Affiliation:

1. Army Engineering University of PLA, Shijiazhang 050000, China

2. Hebei Jiaotong Vocational and Technical College, Shijiazhuang 050035, China

Abstract

The ultra-high-speed permanent magnet motor has the characteristics of high-power density, small size, and high speed, but there are problems with it, such as generation of local excessive heat and obvious vibration and noise. In order to reduce the loss and improve the efficiency of the motor, in this study, ultra-thin silicon steel sheets are used as the material of the iron core of the motor, and two non-oriented silicon steel sheets with different thicknesses—0.05 and 0.15 mm—were selected. First, we use the Epstein square ring electrical steel sheet magnetic properties test to determine the magnetic properties and the loss properties of the two ultra-thin non-oriented silicon steel sheets under working conditions. Then, we use electromagnetic simulation software to calculate the magnetic performance and the temperature rise performance of two kinds of motors with different materials. Finally, through the test of the prototype, we know the difference in the influence of the two kinds of silicon steel sheets on the performance of air compressors. We hope the outcome of the study will provide technical support for optimizing the design of ultra-high-speed permanent magnet motors for air compressors.

Funder

The Major Special Projects of Science and Technology in Hebei Province

The High-Level Talent Funding Project in Hebei Province

The Special Project for Cultivating Students’ Scientific and Technological Innovation Ability

The Xinji City Science and Technology Research and Development Program Project

Science and Technology Research Projects of Hebei Higher Education Institutions in 2022

Hebei Province 'San San San Talent Project' funded project

Publisher

AIP Publishing

Subject

General Physics and Astronomy

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