磁流变阻尼器动力学特性研究

从材料流变特性和动力学、机械学、电磁学的角度出发，建立了磁流阻尼器的动力学模型。应用该模型可由磁流变阻尼器设计参数得到其动力学特性，如力—速度曲线，并与试验结果相吻合，为磁流阻尼器设计和性能预测提供了参考。     

车用磁流变阻尼器的试验及力学建模研究

针对某型号车用磁流变阻尼器进行阻尼特性试验,得到阻尼器的阻尼力在不同工况下与位移、速度的变化曲线.结合Bouc-Wen模型对磁流变阻尼器进行力学建模,推导出模型各参数与加载电流的关系,进而得出电流与阻尼力之间的关系.最后,对比模型仿真结果与试验测试结果,验证磁流变阻尼器的阻尼力可控.     

The Design of Feedback Controller for the Suspension System with Saturated Uncertain Magneto-theological Damper

首先分析了磁流变阻尼器悬架系统的闭环稳定性.应用饱和模型描述了磁流变阻尼器的主要物理特性,这一模型弱化了磁流变阻尼器Bouc-Wen模型的强非线性.接着利用凸包技术对悬架系统状态方程时变参数矩阵和非线性饱和项进行线性化处理.再根据相关引理和Lyapunov函数稳定性理论,将反馈控制器求解问题转化为若干LMI约束条件下的凸优化问题.最后通过求解LMI凸优化问题的最优解,设计出悬架系统的闭环反馈控制器,并给出了最大稳定吸引域.仿真结果表明,磁流变阻尼器的减振效果明显地优于传统阻尼器.     

汽车单筒充气磁流变减振器特性的试验研究

分析了汽车单筒充气磁流变减振器的结构和基于磁流变液Bingham本构关系的阻尼力模型,对用于汽车悬架的国外某单筒充气磁流变减振器阻尼力示功特性、温度特性、活塞磁路磁场特性、磁流变液流变特性进行了试验研究。试验结果表明,磁流变阻尼器具有很强的耗能性和可控性;随控制电流增加,其阻尼力增大,电流达到一定时磁场出现磁饱和状态,阻尼力将趋于稳定;随着工作温度升高,减振器压缩阻尼力增大,拉伸阻尼力下降。     

一种用于车辆半主动悬架控制的磁流变阻尼器模型

文中对适用于车辆半主动悬架控制器设计的磁流变阻尼器模型进行研究.首先分析阻尼力与位移、速度以及输入电流之间的关系,并结合现有阻尼器模型的优点,提出一种精确的便于控制的双曲正切磁滞模型.接着,将磁流变阻尼器安装在硬件在环仿真平台上进行试验,利用试验得到的阻尼器动态特性数据,进行阻尼器模型的参数辨识和曲线拟合.最后,将基于拟合参数的模型仿真结果与试验数据进行比较,验证了模型的正确性.     

磁流变阻尼器在洪山大桥拉索减振中的应用

介绍了一种新型磁流变（MR）阻尼器——永磁调节装配式磁流变阻尼器在长沙洪山大桥拉索减振的应用及试验研究情况，得到了安装阻尼器前后拉索的动力特性，结果表明这种新型磁流变阻尼器能有效地提高拉索的模态阻尼比，抑制拉索的大幅振动。由于该阻尼器无需供电，装配简单，维修方便，与其他的磁流变阻尼器相比，具有较高的推广应用价值。     

洞庭湖大桥风雨振减振试验研究

介绍了在湖南洞庭湖大桥上应用磁流变阻尼器进行拉索减振的试验情况，得到了安装阻尼器前后拉索系统的动力特性。试验结果显示系统的模态阻尼比在安装磁流变阻尼器后有大幅增长，具有良好的减振效果。实测的加速度响应也证明了磁流变阻尼器是拉索减振的有效手段。     

磁流变阻尼器在洪山大桥拉索减振中的应用

介绍了一种新型磁流变(MR)阻尼器--永磁调节装配式磁流变阻尼器在长沙洪山大桥拉索减振的应用及试验研究情况,得到了安装阻尼器前后拉索的动力特性,结果表明这种新型磁流变阻尼器能有效地提高拉索的模态阻尼比,抑制拉索的大幅振动.由于该阻尼器无需供电,装配简单,维修方便,与其他的磁流变阻尼器相比,具有较高的推广应用价值.     

应用于汽车减振的磁流变液阻尼器的设计原理

应用智能材料磁流变液（MR）构造出的半主动悬架减振系统，可以用于对车辆振动的控制。MR流体具有的独特性质在于：在强磁场的作用下，可由牛顿流体变为粘塑流体，而变液阻尼器则具有结构简单、体积小、工作连续可逆，能耗小等优点。本文介绍了磁流变液的材料特性，建立了磁流变液阻尼器的阻尼力数学模型，并提出设计变阻尼器时参数的选取原则。     

斜拉桥拉索磁流变阻尼器减振技术研究

采用数值仿真和现场试验对磁流变阻尼器的减振性能进行了研究。数值仿真计算评估了磁流变阻尼器安装高度、外部激励、阻尼器输入电压等参数对拉索系统模态阻尼比的影响 ,结果表明磁流变阻尼器具有良好的阻尼可调特性 ,调节阻尼器的输入电压可以获得拉索系统的最佳模态阻尼比 ;现场试验表明 ,安装该阻尼器后 ,拉索系统的模态阻尼比提高 3～ 6倍 ,并存在一优化电压 ,在该电压下模态阻尼比达到最大 ;实际风雨振时的现场观测结果显示 ,磁流变阻尼器具有很好的减振效果 ;拉索磁流变阻尼器减振技术已在岳阳洞庭湖大桥全桥实施 ,解决了该桥的风雨振问题     

馈能式磁流变减振器自供电特性研究

本文设计了集馈能与减振功能于一体的磁流变减振器,从能量传递的角度出发,分析了馈能式磁流变悬架系统能量流动路径,提出了馈能式磁流变减振器自供电准则。通过建立1/4馈能式悬架系统模型和基于广义回归神经网络的减振器控制器进行仿真分析,以确定所设计的磁流变减振器在不同路面激励下的自供电工作范围。     

斜拉桥拉索的MR半主动控制研究

根据LQR最优控制理论,结合面向速度剪切(Clipped Optimal)控制算法及修正的磁流变(MR)阻尼器Bouc Wen模型,提出了LQR Clipped半主动控制算法,应用拉索振动的差分离散模型,对斜拉索的面内振动进行了被动、主动及半主动控制研究,分析了MR阻尼器对斜拉索的振动控制效果。研究结果表明:MR阻尼器被动控制能够提供的模态阻尼比可以达到最优油阻尼器控制的值,但MR被动控制存在一个最优输入电压,最优电压值与需控制的第几阶模态有关;与油阻尼器被动控制相比,MR半主动控制可以有效地提高模态阻尼比,尤其在阻尼器位置距索端很近时仍有较好的控制效果。     

汽车磁流变半主动悬架的控制研究

为了改善汽车的乘坐舒适性和行驶安全性,提出了一种汽车磁流变半主动悬架的控制策略。首先,设计了磁流变减振器的工作模式,通过试验获得了其速度特性和力学特性,建立了磁流变减振器的数学模型;其次,建立了带磁流变减振器的二自由度车辆简化模型及其参数表;最后,基于双环控制理论,设计了一种控制系统,其外环产生理想的结构阻尼力,内环调节电流驱动器的电流,以使磁流变减振器实时地产生控制阻尼力。仿真结果表明:以磁流变减振器为基础,通过半主动控制技术,悬架系统的振动动态性能得到了有效的控制。     

Damper modeling for dynamic simulation of a large bus with MR damper

In this study, a large bus is tested to measure its dynamic response by the single-lane change test and the rapid stop test. A full car model is established by ADAMS/Car for computer simulation. For multibody modeling of a large bus, user-defined templates are used in the simulation. Simulation results of the single-lane change test and the rapid braking test are compared to the results of the physical experiments, in which several sensors are installed to measure the vehicle’s responses. The results obtained from the simulation show good agreement with the tests’ results. A dynamic model for the MR(magnetic-rheological) damper is also developed by employing the Magic Formula model, which is widely used in the nonlinear modeling of a tire. Bump simulation of a full car with the MR damper is carried out to verify the performance of the MR damper. The comparison of the simulation results obtained with the MR damper model to the results obtained with the traditional passive damper model showed improved response of the vehicle with the MR damper.     

Inverse neuro-fuzzy MR damper model and its application in vibration control of vehicle suspension system

In this paper, a magneto-rheological (MR) damper-based semi-active controller for vehicle suspension is developed. This system consists of a linear quadratic Gauss (LQG) controller as the system controller and an adaptive neuro-fuzzy inference system (ANFIS) inverse model as the damper controller. First, a modified Bouc–Wen model is proposed to characterise the forward dynamic characteristics of the MR damper based on the experimental data. Then, an inverse MR damper model is built using ANFIS technique to determine the input current so as to gain the desired damping force. Finally, a quarter-car suspension model together with the MR damper is set up, and a semi-active controller composed of the LQG controller and the ANFIS inverse model is designed. Simulation results demonstrate that the desired force can be accurately tracked using the ANFIS technique and the semi-active controller can achieve competitive performance as that of active suspension.     

基于半主动自适应悬架系统的整车道路友好性研究

为了提高车辆的道路友好性与平顺性,设计了以磁流变减振器为控制对象的整车自适应模糊控制半主动悬架系统。在试验测试和理论分析的基础上,建立了基于磁流变减振器的整车半主动悬架模型及其状态方程,并用该模型对自适应模糊控制方法进行了研究。模型的输入采用B级和C级路面谱;道路友好性评价指标采用动载荷系数和动载荷应力因子;使用MATLAB/Simulink建立基于2个自适应模块的模糊控制器控制系统,模糊控制器的输入均采用车身与车桥的相对速度和相对加速度。仿真结果表明:与被动悬架相比,在B级和C级路面、不同速度下,半主动自适应悬架动载荷系数均降低30%左右,动载荷应力因子均降低40%以上,同时也提高了车辆的运行平顺性和稳定性。     

Semi-active H∞ control of high-speed railway vehicle suspension with magnetorheological dampers

In this paper, semi-active H∞ control with magnetorheological (MR) dampers for railway vehicle suspension systems to improve the lateral ride quality is investigated. The proposed semi-active controller is composed of a H∞ controller as the system controller and an adaptive neuro-fuzzy inference system (ANFIS) inverse MR damper model as the damper controller. First, a 17-degree-of-freedom model for a full-scale railway vehicle is developed and the random track irregularities are modelled. Then a modified Bouc–Wen model is built to characterise the forward dynamic characteristics of the MR damper and an inverse MR damper model is built with the ANFIS technique. Furthermore, a H∞ controller composed of a yaw motion controller and a rolling pendulum motion (lateral motion+roll motion) controller is established. By integrating the H∞ controller with the ANFIS inverse model, a semi-active H∞ controller for the railway vehicle is finally proposed. Simulation results indicate that the proposed semi-active suspension system possesses better attenuation ability for the vibrations of the car body than the passive suspension system.     

Comparison of Dynamic Models of Mr Damper for Hardware in the Loop Simulation of Large-Sized Buses

The present study has focused on the comparison of MR damper dynamic models for the purpose of hardware in the loop simulation. A vehicle dynamic model for large-sized bus and a control logic for MR damper was built. Two typical MR damper models, viz. Bouc-Wen and hyperbolic tangent model have been considered in this study and the advantages and disadvantages of each model on the aspect of HILS system is discussed. We discussed the limitations of each model based on the analysis of the vehicle dynamic simulation. The results showed that the existing models are not suitable for HILS system. We proposed the modified hyperbolic tangent model by adopting low-pass filters. The results from the simulation showed the advantages of the modified model which were validated through HILS system.