车用磁流变减振器动力性能实验分析
|
摘要
MRF阻尼器结构简单、体积小、能耗低、反应迅速且阻尼力可调范围广, 已经成为新型履带车辆半主动悬挂系统优先选择的方案。基于磁流变液体本构关系的Bingham模型,对影响车用磁流变减振器的阻尼力的各种因素进行了综合分析。对自行研制的双出杆剪切阀式磁流变减振器进行了实验研究,获得了不同振幅、频率、电流强度下的阻尼力变化曲线,从不同的侧面获得了MRF阻尼器的动力性能。结合Hrovat限界最优半主动控制算法和车辆悬挂系统振动的半主动控制策略,仿真分析了磁流变阻尼器对整车振动的控制效果,并与LQR控制结果作了比较。
Magnetorhological dampers is an ideal component of semi-active vibration control in tracked armored vehicle suspension system with the advantages of simple structure, small volume, energy saving, rapid response and smooth damping. Based on Bingham model, the damping force of a MRF damper was analyzed. And all the factors that affect the damping force of a MRF damper is discussed in this paper. The dynamical characteristics of self-made shearing-valve mode damper are analyzed in detail through experiments on its dynamic parameters such as damping force, displacement, velocity, frequency and electric current, etc. Then, the simulation analysis of semi-active vibration control of tracked vehicle suspension system is presented by u-sing magnetorheological fluid dampers, which utilize the limited optimal Hrovat control algorithm as semi-active control strategies. The control result is compared with the result of LQR algorithm in the end.
Magnetorhological dampers is an ideal component of semi-active vibration control in tracked armored vehicle suspension system with the advantages of simple structure, small volume, energy saving, rapid response and smooth damping. Based on Bingham model, the damping force of a MRF damper was analyzed. And all the factors that affect the damping force of a MRF damper is discussed in this paper. The dynamical characteristics of self-made shearing-valve mode damper are analyzed in detail through experiments on its dynamic parameters such as damping force, displacement, velocity, frequency and electric current, etc. Then, the simulation analysis of semi-active vibration control of tracked vehicle suspension system is presented by u-sing magnetorheological fluid dampers, which utilize the limited optimal Hrovat control algorithm as semi-active control strategies. The control result is compared with the result of LQR algorithm in the end.
引文
[1] Katsuaki S, Hiroshi S, Norio I, et al. Dynamic Characteristics of Magneto-rheological Fluid Damper [ J ]. Smart structure and Material ,2000,3989,194-203.
[2] Dyke S J, Spencer BF Jr, Carlson J D. Modeling and Control of Magnetorheological Dampers for Seismic Response reduction [J]. Smart Mater. Structure, 1996,5(4):565-575
[3] Carlson J D, Chrzn M J. Magnetorheological Fluid Dampers [C]. U. S. Patent 5 ,1994,277-281.
[4] Nancy L. Saxon, William R. Meldrum. Semi-active suspension a mobility case study [A]. U. S. Army Tank-Automotive and Armaments Command.
[5] Andrea c. Wray,francis B. Hoogterp. Magneto-Rheological Fluid Semi-active Suspension Performance Testing, [A]. U. S. Army Tank-Automotive Research Development and Engineering Center,Detroit Arsenal Warren,Michigan.
[6] 关新春.磁流变液及其智能结构减振驱动器的理论与试验 研究[D].哈尔滨:哈尔滨工业大学,2000:41-42
[7] 欧进萍.磁流变耗能器性能的实验研究[J].地震工程与工 程振动,1999,19(4).
[8] 冷劲松,刘彦菊,杜善义.电流变体可调阻尼减振器设计与 实验研究[J].功能材料,1995,26(10).
[9] Brooks D. Applicability of Simplified Expressions for Design with Electrorheological Fluids[J]. Intelligent Material Systems and Structures, 1993,4(3) :409-414.
[2] Dyke S J, Spencer BF Jr, Carlson J D. Modeling and Control of Magnetorheological Dampers for Seismic Response reduction [J]. Smart Mater. Structure, 1996,5(4):565-575
[3] Carlson J D, Chrzn M J. Magnetorheological Fluid Dampers [C]. U. S. Patent 5 ,1994,277-281.
[4] Nancy L. Saxon, William R. Meldrum. Semi-active suspension a mobility case study [A]. U. S. Army Tank-Automotive and Armaments Command.
[5] Andrea c. Wray,francis B. Hoogterp. Magneto-Rheological Fluid Semi-active Suspension Performance Testing, [A]. U. S. Army Tank-Automotive Research Development and Engineering Center,Detroit Arsenal Warren,Michigan.
[6] 关新春.磁流变液及其智能结构减振驱动器的理论与试验 研究[D].哈尔滨:哈尔滨工业大学,2000:41-42
[7] 欧进萍.磁流变耗能器性能的实验研究[J].地震工程与工 程振动,1999,19(4).
[8] 冷劲松,刘彦菊,杜善义.电流变体可调阻尼减振器设计与 实验研究[J].功能材料,1995,26(10).
[9] Brooks D. Applicability of Simplified Expressions for Design with Electrorheological Fluids[J]. Intelligent Material Systems and Structures, 1993,4(3) :409-414.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心