欧洲微纳制造技术平台 MINAM
In chapter 2, based on the bionics of the woodpecker’s brain vibration isolation mechanism, a 6-degree-of-freedom bionics vibration isolation system of the micro-manufacturing platform and its dynamics model are established.
第二章,在分析啄木鸟头部独特生物构造及其隔振机理的基础上,运用仿生学原理,建立了微制造平台六自由度仿生隔振系统及其动力学模型;定义和研究了在基础干扰和直接干扰同时作用的复杂环境下隔振系统的振动传递率问题;研究了微振动环境下空气弹簧的振动模型;对微制造平台隔振系统进行了实验模态分析。
参考来源 - 微制造平台振动主动控制研究·2,447,543篇论文数据,部分数据来源于NoteExpress
对微制造平台隔振系统进行了实验模态分析。
The modal testing of vibration isolation system of the micro-manufacturing platform is made.
介绍了AD AMS与MA TLAB联合仿真的方法,建立了微制造混合隔振平台的仿真模型。
The method of co-simulation using ADAMS and MATLAB was introduced and the simulation model of vibration isolation station of micro-manufacture was built using it.
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