1) smart piezoelectric friction damper
智能压电摩擦阻尼器
1.
A smart piezoelectric friction damper is designed based on a kind of improved Pall friction dampers and its damping force model is analyzed.
在改进的Pall摩擦耗能器的基础上设计了一种智能压电摩擦阻尼器,并分析了其阻尼力模型。
2) smart friction damper
智能摩擦阻尼器
1.
Algorithm for vibration control of tall building with smart friction damper;
安装智能摩擦阻尼器的高层建筑结构振动控制一般算法
3) piezoelectric friction damper
压电摩擦阻尼器
1.
Property analysis of a piezoelectric friction damper;
新型压电摩擦阻尼器本构模型的分析
2.
Theoretical and Experimental Investigations of Structure Control Based on Piezoelectric Friction Damper;
基于压电摩擦阻尼器的结构振动控制理论与试验研究
3.
Based on the quick response feature of piezoelectric friction damper,a new control algorithm,i.
根据压电摩擦阻尼器反应迅速的特点设计局部速度反馈控制,作为局部控制策略。
4) piezoelectric friction damper
压电变摩擦阻尼器
1.
For reducing nonlinear seismic response of high-rise buildings,a newly designed piezoelectric friction damper was adopted as control device,and a fuzzy control algorithm was proposed.
设计制作了一款新型的压电变摩擦阻尼器,并将其作为控制装置,提出了能有效抑制强烈地震激励下高层建筑结构非线性反应的模糊控制算法,通过模糊控制算法建立了施加在压电变摩擦阻尼器上的电压与结构的响应之间的关系。
2.
A new piezoelectric friction damper is designed and fabricated here.
设计制作了一款新型的压电变摩擦阻尼器,并将其作为控制装置,提出了能有效抑制强烈地震激励下建筑结构非线性反应的变增益模糊控制算法,建立了量化因子、比例因子与结构响应之间的关系。
3.
A new piezoelectric friction damper is designed and fabricated in order to reduce the structural damage under earthquakes.
为减轻结构的地震反应,制作了一款新型的压电变摩擦阻尼器,并设计了自协调模糊控制算法用于结构的振动控制,控制的目标是减轻结构的位移和加速度反应,通过模糊控制算法建立了压电变摩擦阻尼器电压与结构的响应关系,给出了量化因子的计算公式,建立了模糊控制器来考虑地震波对量化因子的影响。
5) friction damper
摩擦阻尼器
1.
Design and performance study of a SMA incorporated friction damper;
一种SMA复合摩擦阻尼器的设计与性能研究
2.
Simulation of vibration control for irregular buildings using semi-active friction dampers;
半主动摩擦阻尼器对偏心结构振动控制的仿真研究
3.
Strong seismic analysis of boiler steel structures equipped with friction damper;
安装摩擦阻尼器锅炉钢构架的强震反应分析
6) frictional damper
摩擦阻尼器
1.
Experimental research and numerical analysis of Pall typed frictional dampers;
Pall型摩擦阻尼器的试验研究与数值分析
2.
Analysis of hysteretic behavior of Pall-typed frictional dampers considering geometrical nonlinearity and corresponding test verification;
基于几何非线性的Pall型摩擦阻尼器滞回特性分析与试验验证
3.
Based on the geometry nonlinearity of four-link mechanism of Pall-type frictional damper, influence of the frame displacement, brace stiffness, damper slip force, size of the damper , angle of the brace and buckling force of the braces on the maximum brace force of an improved Pall-type frictional damper(T-shaped cone plate frictional damper)is studied.
从Pall摩擦阻尼器四连杆机构的几何非线性变形特征出发,分析框架位移、支撑刚度、阻尼器摩擦力、阻尼器大小、支撑倾角、支撑屈曲力等对一种改进的Pall摩擦阻尼器—T形芯板摩擦阻尼器支撑的受力特点,拟合出可供设计人员使用的实用计算公式。
补充资料:阻尼型电容分压器(见分压器)
阻尼型电容分压器(见分压器)
damped capacitor voltage dividers
阻尼型电粤万压藉一”divider尽)见分压器(dam卯d eapaei、orvoltage
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条