Mathematically modeling and graphically simulating the research result, then probing into the mechanic performance of the micro-cantilever.5.
4.对上述研究结果进行数学初步建模与图形仿真,并根据仿真结果对微悬臂梁的力学性能加以进一步探索。
参考来源 - 微悬臂梁的机械性能分析和图形仿真The main content in the dissertation is as follows:1. Based on the resonant theory of mechanic, founding the law of microcantilever oscillation with and without damping.
本文的主要研究内容包括:1.根据机械振动的理论,建立了微悬臂梁无阻尼振动和阻尼受迫振动的方程,通过分析环境阻尼对微悬臂梁品质因数的影响,推导了品质因数调控的基本方法以及提高和降低品质因数的方法。
参考来源 - 微悬臂梁品质因数调控模块研究Piezoresistive micro-cantilever biosensor is based on the achievements of many fields, including MEMS, IC, Nanotechnology, molecular biology and material science.
压阻微悬臂梁式生物传感器是多学科最新研究成果的产物,主要包括:微机电系统、集成电路技术、纳米技术、分子生物学和材料学。
参考来源 - 基于MEMS的压阻悬臂梁式生物传感器设计·2,447,543篇论文数据,部分数据来源于NoteExpress
在检测微悬臂梁频率响应特性的实验中得到了较好的结果。
The system and the circuits have been successfully applied to measure the frequency response of the cantilever.
微悬臂梁是一种结构简单、易于进行微加工以及大量生产的传感器结构。
Microcatilever is a kind of simple sensor configuration that is easily micromachined and mass produced.
设计了一种硅微悬臂梁结构,在低频环境中以压电厚膜进行信号转换、谐振。
A silicon micro cantilever structure with piezoeLectric thick film was designed for low frequency operations.
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