1) viscous damper
粘性阻尼器
1.
Using supplemental viscous dampers has been an effective measure for stay-cable vibration suppression of stay-cable bridges.
粘性阻尼器是抑制斜拉桥拉索振动的一种有效方式。
2.
Dampers have been used for vibration mitigation of stay cables;however,there are few literatures on the test of full-scale stay cable attached with nonlinear viscous damper.
在拉索上附加耗能减振阻尼器是斜拉索振动控制的主要手段之一,而拉索在附加非线性粘性阻尼器后的阻尼特性尚未见试验研究报道。
3.
In order to discuss the isolation effect of dampers,the functions of controllability of viscous dampers and magnetorheological dampers(MRD) are stressed.
为了讨论阻尼的隔振效果,将隔振系统的分析模型写成统一的控制方程形式,并运用该控制方程组分析了粘性阻尼和磁流变阻尼(MRD),即:最佳粘性阻尼及可控粘性阻尼对响应的影响;对粘性阻尼器施加开关控制时产生的问题;被动MRD的平均粘性阻尼系数的计算方法;对MRD重置控制时产生的问题。
2) viscoelastic damper
粘弹性阻尼器
1.
The damping effect analysis of frame structure with viscoelastic damper;
粘弹性阻尼器对框架结构的减震效果分析
2.
Analysis of damping effect of viscoelastic damper structure;
粘弹性阻尼器结构的减震效果分析
3.
Parametric optimization of viscoelastic dampers based on orthogonal design;
基于正交设计的粘弹性阻尼器参数优化
3) Viscous fluid dampers
粘性流体阻尼器
1.
Design and experimental research of viscous fluid dampers;
分析了冲击载荷作用下粘性流体阻尼器的工作原理,推导了阻尼力公式的表达式,运用落锤冲击试验确定了其中的参数。
4) viscoelastic dampers
粘弹性阻尼器
1.
The energy dissipation analysis of viscoelastic dampers concrete frame structure
粘弹性阻尼器混凝土框架结构消能减震分析
2.
The wind-induced whipping effect of top curtain wall is prevented by using viscoelastic dampers which is installed inside the original steel tube.
考虑主体结构与顶部幕墙结构的相互作用,采用主体结构层模型—顶部幕墙结构杆系模型分析结构的风效应和顶部幕墙的风振鞭梢效应,应用增设内置式粘弹性阻尼器支撑的控制方法来减小顶部幕墙的风振响应。
3.
In this paper, through the shaking table test of a 1:5 scale three-floor reinforced concrete frame structure with viscoelastic dampers, the dynamic characteristics and damage situation are acquired.
本文通过对一1:5装有粘弹性阻尼器的三层钢筋混凝土框架结构模型进行振动台试验,了解粘弹性阻尼结构的动 力特性和破坏情况。
5) viscous damper
粘滞性阻尼器
6) lead viscoelastic damper
铅粘弹性阻尼器
1.
Calculating models of lead viscoelastic damper;
铅粘弹性阻尼器的计算模型
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