磁流变液研究和应用
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摘要
该文对目前磁流变液的机理、特性研究及其在阻尼器上应用状况进行了总结和归纳.具体就磁流变液的制备和流变特性,磁流变阻尼器的力学特性及其磁路、结构设计以及磁流变液的应用情况进行了分析研究.
This paper presents a summary of current research of magnetorheological fluids and their (applications) in dampers. It also investigates and analyzes production of MRF, rheological property of MRF, dynamic property, magnetic route and structural design of MRF damper, and applications of MRF.
This paper presents a summary of current research of magnetorheological fluids and their (applications) in dampers. It also investigates and analyzes production of MRF, rheological property of MRF, dynamic property, magnetic route and structural design of MRF damper, and applications of MRF.
引文
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[13] 郭大蕾,胡海岩.基于磁流变阻尼器的车辆悬架半主动控制研究———建模与直接自适应控制[J].振动工程学报,2002,15(1):10-13.
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[17] 杨仕清,张万里,龚 捷,等.磁流变的流变学性质研究[J].功能材料,1998,29(5):550-552.
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[20] 汪建晓,孟 光.磁流变液研究进展[J].航空学报,2002,23(1):6-12.
[21] 翁建生,胡海岩,张庙康,等.磁流变液体的流变力学特性试验和建模[J].应用力学学报,2000,17(3):1-5.
[22] 周 强,瞿伟廉.磁流变阻尼器的两种力学模型和实验验证[J].地震工程与工程振动,2002,22(4):144-150.
[23] ShulmamZP.Structurephysicalpropertiesanddynamicsofmagnetorheologicalsuspension[J].IntJMultiphaseFlow,1986,215:935-942.
[24] 金 昀,张培强,汪小华,等.磁流变液剪切屈服应力的数值计算[J].中国科学技术大学学报,2001,31(2):168-173.
[25] 张绪祥,关 丽,瞿大中,等.ER/MR智能阻尼器研究的现状[J].武汉化工学院学报,2001,23(4):50-53.
[26] ZhouGY,ZhangPQ.Investigationofthedynamicmechanicalbehaviorofthedouble barreledconfigurationinamagnetorheologicalfluiddamper[J].SmartMaterStruct,2002,11:230-238.
[27] 隋莉莉.磁流变阻尼装置的参数影响[J].吉林建筑工程学院学报,2001,3:7-11.
[28] GandhiFarhan,WangKW.Magnetorheologicalfluiddamperfeedbacklinearizationcontrolforhelicopterrotorapplication[J].SmartMaterStruct,2001,10:96-103.
[29] 张华良,饶柱石,傅志方,等.环形极板电流变液可控阻尼器理论建模研究[J].振动工程学报,2002,15(1):31-35.
[30] 申永军,杨绍普,刘献栋,等.采用磁流变阻尼的一种改进兴半主动控制汽车悬架研究[J].振动、测试与诊断,2001,21(4):253-257.
[31] 李 惠,袁雪松,吴 波,等.粘滞流体变阻尼半主动控制器对结构抗震控制的实验研究[J].振动工程学报,2002,15(1):25-29.
[32] 左 军,罗晓玉,曹树平.磁流变流体———新型智能流体材料[J].机床与液压,2000,1:30-32.
[33] LiaoWH,LaiCY.Harmonicanalysisofamagnetorheologicaldamperforvibrationcontrol[J].SmartMaterStruct,2002,11:288-296.
[34] LiWH,DuH.Nonlinearrheologicalbehaviorofmagnetorheologicalfluids:step-strainexperiments[J].SmartMaterStruct,2002,11:209-217.
[35] AlbertoLeva,Luigipirodd.NARX basedtechniqueforthemodelingofmagneto-rheologicaldampingdevices[J].SmartMaterStruct,2002,11:79-88.
[36] AhnYoungKong,YangBo Suk.Directionallycontrollablesqueezefilmdamperusing
[2] MezzasalmaSA,KoperGJM.Semiclassicalapproachtoelectrorheologicalfluids.Influenceofsolidvolumefractiononthesuspensionyieldstress[J].ColloidPolymSci,2002,280:160-166.
[3] GinderJM,DavisLC,ElieLD.Rheologyofmagnetorheologicalfluids:modelsandmeasurements[A].5thIntConfonERfluidsandMRSuspensions[C].Singapore:WorldScientific,1995.504-514.
[4] DavidSimon,MehdiAhmadian.Vehicleevaluationoftheperformanceofmagnetorheologicaldampersforheavytrucksuspensions[J].JournalofVibrationandacoustics,2001,123:365-375.
[5] KordonskiWI,GoliniD.MRSuspensionsandtheirapplications[A].NakanoM,KoyamaK,Procofthe6thIntConfonERFluids[C].Singapore:WorldScientific,1998.837-844.
[6] KormannC,LaunHM,RichterHJ.MRsuspensionsandassociatedtechnology[A].BulloghWA.Procofthe5thIntConfonERFluids[C].Singapore:WorldScientific,1996.362-367.
[7] CutillasS,BossisG,CebersA.RheologicalpropertiesofMRfluids[J].PhysRevE,1998,57(1):804-811.
[8] 廖昌荣,余 淼,陈伟民,等.汽车磁流变减振器设计原理与实验测试[J].北京:中国机械工程,2002,13(16):1391-1394.
[9] 廖昌荣,张玉麟,陈伟民,等.汽车磁流变阻尼器的设计与实验研究[J].功能材料与器件学报,2001,7(4):350-354.
[10] 廖昌荣,陈伟民,余 淼,等.磁流变阻尼器件设计中若干技术问题探讨[J].功能材料与器件学报2001,7(4):345-349.
[11] 廖昌荣,陈伟民,黄尚廉.磁流变技术与磁流变阻尼器件[J].新技术新工艺,2002,10:17-20.
[12] 陈吉安,赵晓昱.应用于汽车减振的磁流变液阻尼器的设计原理[J].设计计算研究,2002,8:9-13.
[13] 郭大蕾,胡海岩.基于磁流变阻尼器的车辆悬架半主动控制研究———建模与直接自适应控制[J].振动工程学报,2002,15(1):10-13.
[14] 司 鹄,彭向和.磁流变材料的流变性能研究[J].材料科学与工程,2002,20(1):61-63.
[15] 潘 胜,吴建耀,胡 林,等.磁流变液的屈服应力与温度效应[J].功能材料,1997,28(2):264-267.
[16] 刘 奇,张 平,王东亚,等.磁流变体材料的制备及性能研究[J].功能材料,2001,32(3):257-259.
[17] 杨仕清,张万里,龚 捷,等.磁流变的流变学性质研究[J].功能材料,1998,29(5):550-552.
[18] SevalGenc,PradeepPPhule.Rheologicalpropertiesofmagnetorheologicalfluids[J].SmartMaterStruct,2002,11:140-146.
[19] ByungDooChin,JongHyeokPark.Rheologicalpropertiesanddispersionstabilityofmagnetorheological(MR)suspensions[J].RheolActa,2001,40:211-219.
[20] 汪建晓,孟 光.磁流变液研究进展[J].航空学报,2002,23(1):6-12.
[21] 翁建生,胡海岩,张庙康,等.磁流变液体的流变力学特性试验和建模[J].应用力学学报,2000,17(3):1-5.
[22] 周 强,瞿伟廉.磁流变阻尼器的两种力学模型和实验验证[J].地震工程与工程振动,2002,22(4):144-150.
[23] ShulmamZP.Structurephysicalpropertiesanddynamicsofmagnetorheologicalsuspension[J].IntJMultiphaseFlow,1986,215:935-942.
[24] 金 昀,张培强,汪小华,等.磁流变液剪切屈服应力的数值计算[J].中国科学技术大学学报,2001,31(2):168-173.
[25] 张绪祥,关 丽,瞿大中,等.ER/MR智能阻尼器研究的现状[J].武汉化工学院学报,2001,23(4):50-53.
[26] ZhouGY,ZhangPQ.Investigationofthedynamicmechanicalbehaviorofthedouble barreledconfigurationinamagnetorheologicalfluiddamper[J].SmartMaterStruct,2002,11:230-238.
[27] 隋莉莉.磁流变阻尼装置的参数影响[J].吉林建筑工程学院学报,2001,3:7-11.
[28] GandhiFarhan,WangKW.Magnetorheologicalfluiddamperfeedbacklinearizationcontrolforhelicopterrotorapplication[J].SmartMaterStruct,2001,10:96-103.
[29] 张华良,饶柱石,傅志方,等.环形极板电流变液可控阻尼器理论建模研究[J].振动工程学报,2002,15(1):31-35.
[30] 申永军,杨绍普,刘献栋,等.采用磁流变阻尼的一种改进兴半主动控制汽车悬架研究[J].振动、测试与诊断,2001,21(4):253-257.
[31] 李 惠,袁雪松,吴 波,等.粘滞流体变阻尼半主动控制器对结构抗震控制的实验研究[J].振动工程学报,2002,15(1):25-29.
[32] 左 军,罗晓玉,曹树平.磁流变流体———新型智能流体材料[J].机床与液压,2000,1:30-32.
[33] LiaoWH,LaiCY.Harmonicanalysisofamagnetorheologicaldamperforvibrationcontrol[J].SmartMaterStruct,2002,11:288-296.
[34] LiWH,DuH.Nonlinearrheologicalbehaviorofmagnetorheologicalfluids:step-strainexperiments[J].SmartMaterStruct,2002,11:209-217.
[35] AlbertoLeva,Luigipirodd.NARX basedtechniqueforthemodelingofmagneto-rheologicaldampingdevices[J].SmartMaterStruct,2002,11:79-88.
[36] AhnYoungKong,YangBo Suk.Directionallycontrollablesqueezefilmdamperusing
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