具体研究方向和研发趋势

II. Detailed Research Orientation and R&D Direction

1、磁物理特性的研究；
1. Research into the magnetic physical properties；

2、磁传动技术的研究及其应用研究；
2. Research and application research into the magnetism-droved technology；

3、磁机械设备的研究、结构设计及控制系统的机电一体化研究；
3. Research into the magnetic machinery equipment, the structure design and the control system integration；

4、传感与测试技术综合研究与开发；
4. Comprehensive research and development of the sensor and its test technology；

5、磁悬浮技术与磁悬浮机械；
5. Research into the technology and machinery of the magnetic suspension；

a、全永磁磁悬浮轴承试验研究；
a. Research into the complete permanent magnetism suspension bearing experiment；

b、磁悬浮轴承特别是主动型磁悬浮轴承设计及系统特性研究；
b. Research into the design and system properties of the magnetism suspension bearing, especially of the active magnetism suspension bearing；

c、大功率、低成本磁悬浮轴承及其应用研究；
c. Research and application research into the high-power and low cost magnetism suspension bearing；

 6、永磁电机的研发
 6. Research and development of the permanent magnetism electric engine

 a、自同步稀土永磁大功率同步电动机；
 a. The self-synchronizing rare earth permanent magnetism high efficiency synchronization electromotor；

 b、高精度微型伺服永磁电动机；
 b. The high accuracy miniature servo permanent magnetism electromotor；

 c、大功率稀土永磁风力发电机及风电场装置；
 c. The high efficiency rare earth permanent magnetism wind power generator and the equipment of the electric power generation plant using the wind power；

d、多功能混合励磁稀土永磁电机研究；
d. Research into the multi-purpose mix excitation rare earth permanent magnetism electric engine；

 7、磁机械运动中润滑与摩擦的综合技术与材料应用的研究与开发；
 7. Research and development of the comprehensive technology and the material application about the lubrication and friction during the motion of the magnetic machinery；