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1、超磁致伸缩功率超声换能器热分析_曾海泉DOI:10.13334/j.0258-8013.pcsee.2011.06.001第31卷第6期1162011年2月25日中国电机工程学报ProceedingsoftheCSEEVol.31No.6Feb.25,2011?2011Chin.Soc.forElec.Eng.(2011)06-0116-05中图分类号:TM153文献标志码:A学科分类号:470·40文章编号:0258-8013超磁致伸缩功率超声换能器热分析曾海泉1,曾庚鑫2,曾建斌3,闫明3(1.厦门理工学院机械系,福建省厦门市361024;2.
2、华南理工大学机械与汽车工程学院,广东省广州市510640;3.沈阳工业大学电气工程学院,辽宁省沈阳市110178)ThermalAnalysisofGiantMagnetostrictiveHighPowerUltrasonicTransducerZENGHaiquan1,ZENGGengxin2,ZENGJianbin3,YANMing3(1.DepartmentofMechanicalEngineering,XiamenUniversityofTechnology,Xiamen361024,FujianProvince,China;2.Scho
3、olofMechanicalandAutomotiveEngineering,SouthChinaUniversityofTechnology,Guangzhou510640,———————————————————————————————————————————————GuangdongProvince,China;3.SchoolofElectricalEngineering,ShenyangUniversityofTechnology,Shenyang110178,LiaoningProvince,China)ABSTRACT:Giantmag
4、netostrictivematerials’(GGM)attributesofhighenergydensityandrelativelyhighthermalconductivitymakeitpossibletobuildlarge-scalehighpowerultrasonictransducers.However,thetransducersusuallyworkunderamagneticfieldofhighintensityandhighfrequency.Theheatfromhysteresislossandeddycurre
5、ntlossishuge.Ontheotherhand,GGMissensitivetotemperature.Thereforeheatanalysisisanimportantpartofthetransducerdesign.Ahighpowerultrasonictransduceranditscoolingsystemweredesignedinthispaper.ThemodifiedJiles-Athertonhysteresismodelwhichincludeeddycurrentlossandanomalouslosswasus
6、edtomodelthebehaviorofGGMinahighpowerultrasonictransducer.Modelparametersweredeterminedwiththeleastsquarefit.Totalhysteresislosswascalculatedwiththemodel.Coolingwaterflowandtemperaturedistributionschemesofthetransducerwereobtainedwithfiniteelementmethod.Calculationresultsagree
7、wellwiththeexperimentalresultsKEYWORDS:highpowerultrasonictransducer;giantmagnetostrictivematerials(GGM);hysteresisloss;finiteelement;temperatureanalysis摘要:超磁致伸缩材料能量密度高,导热性相对较好,由其制造的功率超声换能器能做成很大功率,但因为此类换能器总处在高强度———————————————————————————————————————————————高频率磁场中工作,各种损耗很严重,带来
8、的基金项目:国家自然科学基金项目(50875177);辽宁省教育厅重点实验室项目(2008S170);福建省教育厅项目(A
