Additionally, optimization in structure design of vane MRF damper is completed by using the method of magnetic field finite element analysis, which will effectively enhance performance of damper.
采用磁场有限元分析的方法对叶片式MRF减振器的结构设计进行优化,可以有效提高减振器的性能。
The principle and two structure schemes of vane MRF damper designed base on conventional vane hydraulic damper are presented.
介绍一种基于传统叶片式液压减振器设计的叶片式MRF减振器的工作原理,提出两种结构方案。
The design of vane MRF damper which based on conventional vane hydraulic damper is briefly introduced, and the damping moment calculation model is deduced on the basi.
介绍了一种以传统叶片式液压减振器为基础设计的叶片式MRF减振器。
The internal flow field characteristic of vane damper is very important for a good damping performance.
叶片式液压减振器内部流场特性对减振器的阻尼工作性能优劣至关重要。
WANG Wenrui. New Vane Damper Structure Design and Suspension Performance Analysis [D]. Beijing: Beijing Institute of Technology , 2005.
[2]王文瑞。新型叶片减振器结构设计与悬挂性能分析[D] 。北京: 北京理工大学, 2005。
WANG Wenrui. New Vane Damper Structure Design and Suspension Performance Analysis [D]. Beijing: Beijing Institute of Technology , 2005.
[2]王文瑞。新型叶片减振器结构设计与悬挂性能分析[D] 。北京: 北京理工大学, 2005。
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