共查询到17条相似文献,搜索用时 484 毫秒
1.
针对防震、航空航天、野战军械等领域对能源的限制,以及车辆减振中对阻尼器拉压行程不同阻尼力大小的要求,设计制作了一个无源自适应磁流变阻尼器。该阻尼器采用磁致伸缩逆效应及磁流变液的特性,把负载力的变化转化为磁流变液间隙处磁场的变化,解决了常规的磁流变阻尼器需要外配能源装置及控制电路的问题。对该阻尼器进行了建模,并进行了阻尼特性试验,结果表明:试验数据与模型符合得较好,阻尼力大小和负载有关,拉力越大,阻尼力越大,压力越大,阻尼力越小,具有负载自适应的特点,验证了设计的可行性。 相似文献
2.
磁流变阻尼器的构造设计及其阻尼力性能的试验研究 总被引:21,自引:2,他引:21
本文根据磁流变液的材料特点和磁路设计原则,设计并制作了一个双出 杆的剪切阀式磁流阻尼器,在伺服试验机上对所设计制作的磁流变阻尼器的阻尼力性能进行了试验研究,并分析了影响阻尼力的各种因素。结果表明:所设计制作的磁流变阻尼器具有一定的剩磁,但剩磁对阻尼力可调系数的影响很小;所设计制作的磁流变阻尼器能够达到的最大阻尼力和阻尼力可调系数都很理想。由此得出结论,本文所设计制作的磁流变阻尼器具有卓越的阻尼性能,可在土木工程结构的半主动振动控制设计中加以推广和应用。 相似文献
3.
X形和三角形钢板阻尼器的阻尼力模型(Ⅰ)--基于双线性本构关系 总被引:3,自引:1,他引:3
利用软钢的双线性本构关系,依据经典力学原理推导建立了X形和三角形钢板阻尼器的阻尼力滞回模型。首先,导出了单调加载下钢板阻尼器的力与位移关系及其渐近曲线;其次,对于软钢材料本构关系分别考虑在理想弹塑性和双线性强化模型基础上,推导建立了钢板阻尼器的阻尼力模型;最后,将钢板阻尼器的阻尼力模型及其参数与试验结果进行了比较,验证了理论模型的有效性,并分析了误差存在的原因。 相似文献
4.
磁流变智能基础隔震系统研究 总被引:5,自引:3,他引:2
本文将磁流变(MR)阻尼器与普通橡胶隔震支座相结合,组成智能基础隔震系统应用到结构控制中。在详细介绍了系统的各部分与整体运行情况后,采用LQR经典线性最优控制算法对结构进行了振动台试验研究。试验结果表明,由MR阻尼器提供可调阻尼力的智能隔震控制系统,能有效克服被动隔震最优控制频带窄的缺点,对较宽频域范围地震激励能进行有效的振动控制。其相对一般被动隔震装置,能同时减小上部结构加速度和隔震层位移. 相似文献
5.
为改善近断层地震动作用下隔震桥梁结构的抗震性能,基于Benchmark结构振动控制问题,研究附加黏滞阻尼器、磁流变(MR)阻尼器的组合隔震策略.非线性动力分析过程中,优化了黏滞阻尼器的阻尼系数和速度指数,并设计了分散模糊控制器来确定施加给磁流变阻尼器的电压.研究结果表明:采用黏滞阻尼器和磁流变阻尼器可提高隔震桥梁结构在... 相似文献
6.
高阶单步法控制MR智能隔震系统的试验研究 总被引:1,自引:0,他引:1
高阶单步法已成功地应用于结构非线性分析及考虑时滞的主动控制等,显示了它的稳定、精度高和计算迅速等特点。磁流变阻尼器是一种性能优良的智能阻尼器,它具有阻尼力可调范围宽、响应迅速且所需能量很少的特点。本文将磁流变(MR)阻尼器与普通橡胶隔震支座相结合,采用高阶单步算法和两种控制策略对结构进行振动控制。数值模拟分析与振动台试验结果表明:由MR阻尼器提供可调阻尼力的智能隔震控制系统能有效克服被动隔震最优控制频带窄的缺点,对较宽频域范围不同大小的地震激励均能提供最优控制。同时也表明该控制算法是一种能用于结构实际控制的变阻尼有效算法。 相似文献
7.
磁流变阻尼器是一种具有广阔应用前途的半主动控制装置,但其复杂的力学特性很难精确描述。非线性参数模型是一个相对简单并且能够很好地描述磁流变阻尼器力学特性的力学模型,但该模型既是非线性的、又是非解析的,参数识别十分困难。结合传统遗传算法良好的全局搜索能力和二分法可靠的收敛性,本文提出了一种改进的遗传算法——层次压缩遗传算法。对非线性参数模型的参数识别结果显示:层次压缩遗传算法简单可行,具有较高的识别精度。同时也验证了非线性参数模型描述磁流变阻尼器阻尼力特性的准确性。 相似文献
8.
X形和三角形钢板阻尼器的阻尼力模型(Ⅱ)——基于R-0本构关系 总被引:2,自引:0,他引:2
利用软钢的Ramberg-Osgood本构关系(R-O模型),依据经典力学原理推导建立了X形和三角形钢板阻尼器的阻尼力滞回模型。首先,给出了循环加载下软钢材料的应力-应变R-O本构关系;其次,推导建立了基于R-O本构关系的钢板阻尼器的阻尼力模型;最后,将该阻尼力模型及其参数与试验结果和双线性强化模型进行了比较,验证了R-O理论模型的有效性,并分析了误差存在的原因。 相似文献
9.
磁流变阻尼器作为一种比较典型的半主动控制元件,具有构造简单、响应速度快、耐久性好、阻尼力大且连续可调等优点。即使地震中能源中断,磁流变阻尼器仍可以作为被动耗能装置继续工作发挥作用,可靠性高。设计合理有效的磁流变阻尼器半主动控制方法,对于整体结构的减震效果尤其重要。提出一种改进的磁流变阻尼器的半主动控制策略-改进的Bang-Bang控制策略,对装有磁流变阻尼器的减震控制3层框架结构进行了一系列的实时混合模拟试验,对多种半主动控制方法下的振动控制效果进行试验分析。试验结果表明:磁流变阻尼器对框架结构的减震效果显著,并验证了提出的磁流变阻尼器半主动控制策略的有效性。 相似文献
10.
基于瞬时最优算法的磁流变阻尼隔震结构半主动控制 总被引:1,自引:0,他引:1
采用瞬时最优控制算法,对附加了磁流变阻尼器的多自由度隔震结构进行了半主动控制的数值模拟。首先,将被动隔震装置——叠层钢板橡胶垫与磁流变阻尼器相结合,形成磁流变智能隔震系统。其次,根据瞬时最优控制算法的基本原理,针对磁流变阻尼器的特点,建立与之相适应的半主动控制算法。最后,以六层隔震结构为例,进行数值分析。比较了被动与半主动控制的结构反应,并得到较好的控制效果。 相似文献
11.
A magneto‐rheological (MR) damper is a semi‐active device where the damper force capacity is controlled by varying the input current into the damper. In this paper, the dynamics of MR dampers associated with variable current input is studied. Electromagnetic theory is used to model the dynamics of an MR damper including the eddy current effect and the nonlinear hysteretic behavior of damper material magnetization. A nonlinear differential equation that relates the input current to the damper with a constant equivalent current is proposed. The nonlinear differential equation is combined with the Maxwell Nonlinear Slider (MNS) model to create the variable current MNS model to predict the damper force under variable input current and random damper displacement loading. The model is evaluated by comparing the predicted response of a large‐scale MR damper to the measured damper response from experiments. The experiments include a real‐time hybrid simulation of a 3‐story building structure with a large‐scale MR damper subjected to the design earthquake. The exceptional agreement observed between the predicted and experimental results illustrate the robustness and the accuracy of the variable current MNS model. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
12.
磁流变液是一种性能优良的智能材料,用其制成的MR阻尼器是一种理想的半主动控制装置。本文提出了一种新型MR阻尼器——逆变型MR阻尼器,给出了逆变型MR阻尼器的设计方法,并设计了一个足尺的阀式逆变型MR阻尼器。实验证明逆变型MR阻尼器阻尼力可调,在电源失效或无电源时能够在大阻尼状态工作,这提高了半主动控制装置在地震中的使用安全性。逆变型MR阻尼器具有良好的可靠性、实用性和经济性。本文最后针对试验中阻尼器出力的可调范围比较小的问题给出了几种改进的思路。 相似文献
13.
In this paper, the seismic response reduction performance of magnetorheological (MR) damper is experimentally investigated for a suspension bridge. First, the force–displacement and force–velocity curves under a range of excitation frequencies, amplitudes and currents are obtained by mechanical behavior test of the RD1097 type MR damper. Then a new non-linear hysteretic model is proposed to model the mechanical behavior of the MR damper and the model parameters are identified from test data. An experimental method, as well as a set of testing setups with the MR damper for longitudinal seismic response reduction of a SDOF generalized system representing the fundamental longitudinal mode of suspension bridge, is developed. Finally, the seismic response reduction experiment subject to three kinds of earthquake excitations, including the Pingsheng Bridge earthquake wave, the El-Centro wave and the Taft wave, is carried out, and nine control cases, including uncontrolled, six passive control schemes with different input currents and two semi-active Bang–Bang control schemes, are tested. The results verify that the seismic response reduction experimental method is feasible and the good performance of seismic longitudinal response reduction of the suspension bridge can be achieved by MR damper. It is also shown that the passive control with optimum input current outperforms the semi-active Bang–Bang controls. 相似文献
14.
A magnetorheological (MR) damper has been manufactured and tested and a non‐linear model is discussed. The parameters for the model are identified from an identification set of experimental data; these parameters are then used to reconstruct the force vs. displacement and the force vs. velocity hysteresis cycles of the MR damper for the hysteretic model. Then experiments are conducted on a three‐storey frame model using impact excitation, which identifies dynamic parameters of the model equipped with and without the MR damper. Natural frequencies, damping ratios and mode shapes, as well as structural properties, such as the mass, stiffness and damping matrices, are obtained. A semi‐active control method such as a variable structure controller is studied. Based on the ‘reaching law’ method, a feedback controller is presented. In order to evaluate the efficiency of the control system and the effect of earthquake ground motions, both numerical analysis and shaking table tests of the model, with and without the MR damper, have been carried out under three different ground motions: El Centro 1940, Taft 1952, and Ninghe 1976 (Tangshan Earthquake in Chinese). It is found from both the numerical analysis and the shaking table tests that the maximum accelerations and relative displacements for all floors are significantly reduced with the MR damper. A reasonable agreement between the results obtained from the numerical analysis and those from the shaking table tests is also observed. On the other hand, tests conducted at different earthquake excitations and various excitation levels demonstrate the ability of the MR damper to surpass the performance of a comparable passive system in a variety of situations. Copyright © 2003 John Wiley & Sons, Ltd. 相似文献
15.
磁流变阻尼器的两种力学模型和试验验证 总被引:41,自引:3,他引:41
本文根据我们设计制作出的磁流变阻尼器的阻尼特性试验结果,提出了描述阻尼器动态特性的两种新的力学模型。一种称之为修正的Bingham模型,它由Bingham单元(库仑摩擦单元与粘滞单元并联)与弹簧单元串联组成。该弹簧单元与磁流变液屈服前区的初始剪切模量和蓄能器的刚度等有关。另一种称为修正的Dahl模型,它采用Dahl模型来模拟库仑摩擦力,克服了常用的Bouc-Wen模型需要确定的参数过多的缺点。为了使模型在阻尼器的电流强度(磁场强度)改变的情况下仍然有效,引入一个内变量描述模型参数与电流强度(磁场强度)的关系。最后,通过理论分析与试验结果的比较,证明本文提出的两种力学模型能够较为精确地描述大多数的磁流变阻尼器在改变电流强度(磁场强度)情况下的动态特性。 相似文献
16.
压电-T型变摩擦阻尼器及其性能试验与分析 总被引:9,自引:0,他引:9
本文结合压电驱动器和T型摩擦阻尼器的特点,提出了压电-T型变摩擦阻尼器,并建立了阻尼器输入电压主动调节或按位移和速度相关调节的阻尼力模型。其次,设计制作了最大阻尼力450N、阻尼力可调倍数2.5~3倍的小比例模型压电-T型变摩擦阻尼器,进行了可调阻尼力性能试验,得到了输入电压主动调节和分别按位移和速度相关调节的阻尼力滞回曲线,试验结果与阻尼力模型分析结果吻合较好。此外,探讨了压电-T型变摩擦阻尼器的规格化设计,分别设计了最大阻尼力20kN和200kN、阻尼力可调倍数2的压电-T型变摩擦阻尼器参数。压电-T型变摩擦阻尼器构造简单、阻尼力调节方便、响应迅速,是一种性能优燎能阻尼器. 相似文献
17.
Vibration mitigation using smart, reliable and cost‐effective mechanisms that requires small activation power is the primary objective of this paper. A semi‐active controller‐based neural network for base‐isolation structure equipped with a magnetorheological (MR) damper is presented and evaluated. An inverse neural network model (INV‐MR) is constructed to replicate the inverse dynamics of the MR damper. Next, linear quadratic Gaussian (LQG) controller is designed to produce the optimal control force. Thereafter, the LQG controller and the INV‐MR models are linked to control the structure. The coupled LQG and INV‐MR system was used to train a semi‐active neuro‐controller, designated as SA‐NC, which produces the necessary control voltage that actuates the MR damper. To evaluate the proposed method, the SA‐NC is compared to passive lead–rubber bearing isolation systems (LRBs). Results revealed that the SA‐NC was quite effective in seismic response reduction for wide range of motions from moderate to severe seismic events compared to the passive systems. In addition, the semi‐active MR damper enjoys many desirable features, such as its inherent stability, practicality and small power requirements. The effectiveness of the SA‐NC is illustrated and verified using simulated response of a six‐degree‐of‐freedom model of a base‐isolated building excited by several historical earthquake records. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献