1、个人基本情况姓名：陈征性别：男出生年月：1978.10民族：汉职称职务：副教授，硕士生导师最后学历、学位：博士后、工学博士工作单位：

一、个人基本情况姓名：张思进性别：男户籍：安徽省潜山县人出生年月：1971年5月19日职称：副教授学院：机械与运载工程学院二、从事研究的学科专业领域及主要研

个人情况姓名：干年妃性别：女出生年月：1977.10民族：汉职称：讲师最后学历、学位：工学博士工作单位：湖南大学汽车车身先进设计制造国家

姓名：张见明职称：教授学位：工学博士性别：男出生年月：1965年籍贯：湖北孝昌县通讯地址：湖南大学机械与汽车工程学院，410082E-mail：zhangjianm@gmail.com专业领域：车辆工程、固体力学、计算力学主要研究方向：汽车CAE技术、车辆结构仿真与优化、计算机图形算法与三维可视化、CAE软件开发及其在车身设计中的应用、数值计算方法（有限元、边界元、无网格法、快速算法、多尺度分析）主要学习及工作经历：1985．9–1989．7西安交通大学工程力学系，大学本科1989．7–1995.5江汉第四石油机械厂，助理工程师1995.5–2002.10沙市石油钢管厂，工程师1998.9–2000.4清华大学工程力学系，硕士研究生2000.4–2002.7清华大学工程力学系，博士研究生2002.10–2005.8日本信州大学机械系统工程系，产学官连携研究员2005.9–2007.8日本学术振兴会（JSPS）特别研究员2007．7–至今教授,湖南大学机械与汽车工程学院和汽车车身先进设计制造国家重点实验室主要社会兼职：以下国际杂志的论文审稿人：JournalofComputationalPhysicsInternationalJournalforNumericalMethodsinEngineeringComputationalMechanicsInternationalJournalofSolidsandStructuresASMEJournalofFluidsEngineeringEngineeringAnalysiswithBoundaryElementsNumericalheattransfer项目经历：1.混凝土坝温度控制仿真和裂缝扩展计算程序的研究和工程应用，主研，起止时间：2007-2010。2.日本学术振兴会项目(JSPSIDNo.P05075)：“边界类型无网格数值方法开发及其在线性和非线性问题中的应用，主研，起止时间：2005-2007,经费：967万日元。3.知的CLUSTER创成事业－远藤碳纳米管项目，分项主研，起止时间：2002-2005,经费：13亿日元。4.国家自然科学基金项目：“边界元快速算法及其工程应用”，参与研究，项目批准号：10172053，起止时间：2002-2004，经费：30万元。获奖：日本科学振兴会(JSPS)研究员奖,2004清华大学优秀博士论文奖,清华大学,2004林家翘应用数学奖,清华大学,2001研究经历及成果：1.边界类型无网格数值方法开发及其在线性和非线性问题中的应用(日本科学振兴会.2005-2007)2.碳纳米复合材料热性质的数值仿真(知的远藤项目，日本文部科学省.2002-2005)3.一种新的边界类型无网格法——杂交边界点法(博士论文,2000-2002)4.螺旋焊管成形过程的仿真模拟及工艺参数优化(1999)5.用多域边界元法分析刚架结构的应力(硕士论文,1998-2000)6.玻璃钢抽油杆接头的结构改进(1997-1998)7.玻璃钢抽油杆包装箱的有限元分析及结构改进(1997)8.任意形状钢窗型材截面性质的C++计算程序(1996-1997)9.建筑外用电梯的有限元分析(1996)10.Instron疲劳试验机(操作员和管理员,1995-1998)11.沙漠橇装泵的研制与开发(国家级重大项目,1994-1995)12.修井机游车大钩的应力测试及有限元分析(1995)13.修井机井架结构改进(1993-1994)14.抽油机支架结构改进(1991-1992)15.抽油机减速箱残余应力测试及振动时效研究(1990)16.大型机械结构应力测试(1989-1995)17.双相合金低周疲劳应力应变响应的有限元分析(学士论文,1988-1989)文章发表：杂志文章[1]JMZhang,MTanaka,AdaptiveSpatialDecompositioninFastMultipoleMethod,JournalofComputationalPhysics,Vol.226,pp.17–28,2007[2]JMZhang,MTanaka,ZHYao,SingularandRegularImplementationsofHybridBoundaryNodeMethod，清华大学学报（英文版），inpress[3]JMZhang,MTanaka,FastHdBNMforlarge-scalethermalanalysisofCNT-reinforcedcomposites,ComputationalMechanics,publishedonline:22Dec.2006[4]JMZhang,MTanaka,SystematicstudyofthermalpropertiesofCNTcompositesbyafastmultipolehybridboundarynodemethod,EngineeringAnalysiswithBoundaryElements,publishedonline:5July2006[5]VSingh,MTanaka,JMZhang,MEndo,EvaluationofEffectiveThermalConctivityofCNT-basedNano-CompositesbyMeshlessEFGMethod,InternationalJournalofNumericalMethodsforHeatandFluidFlow,inpress[6]JMZhang,MTanaka,AneffectivetreedatastructureinFastMultipoleMethod,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.6,pp.17-22,2006[7]MTanaka,JMZhang,HShirasaka,ApplicationofHybridBoundaryNodemethod(HdBNM)tosteady-stateheatconctionininhomogeneousproblem,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.6,pp.23-26,2006,(日文)[8]MTanaka,JMZhang,Large-scalethermalanalysisofcompositesembeddedwithCNTsofarbitraryshapesandrandomdistribution,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.5,pp.107-112,2005[9]JMZhang,MTanaka,MEndo,Thehybridboundarynodemethodacceleratedbyfastmultipolemethodfor3Dpotentialproblems,InternationalJournalforNumericalMethodsinEngineering,Vol.63,pp.660-680,2005[10]JMZhang,MTanaka,MEndo,Acceleratingmulti-domainhybridboundarynodemethodwithfastmultipolemethod,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.5,pp.7-12,2005[11]JMZhang,MTanaka,TMatsumoto,Meshlessanalysisofpotentialproblemsinthreedimensionswiththehybridboundarynodemethod,InternationalJournalforNumericalMethodsinEngineering,Vol.59,pp.1147-1160,2004[12]JMZhang,MTanaka,TMatsumoto,AsimplifiedapproachforheatconctionanalysisofCNT-basednano-composites,ComputerMethodsinAppliedMechanicsandEngineering,Vol.193,pp.5597-5609,2004[13]JMZhang,MTanaka,TMatsumoto,AGuzik,Heatconctionanalysisinbodiescontainingthin-walledstructuresbymeansofHybridBNMwithanapplicationtoCNT-basedcomposites,JSMEInternationalJournalSeriesA:SolidMechanicsandMaterialEngineering.Vol.47,No.2,pp.181-188,2004[14]JMZhang,MTanaka,AtreedatastructureforMLSapproximationonsurfaces,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.4,pp.43-46,2004[15]JMZhang,MTanaka,MEndo,FasthybridBNManalysisofheatconctionpropertiesofCNT-basedcomposites,TransactionsofJASCOME,JournalofBoundaryElementMethods,Vol.21,pp.39-44,2004[16]JMZhang,ZHYao,Themeshlessregularhybridboundarynodemethodforthreedimensionallinearelasticity,EngineeringAnalysiswithBoundaryElements.Vol.28,pp.525-534,2004[17]JMZhang,ZHYao,MTanaka,Themeshlessregularhybridboundarynodemethodfor2-Dlinearelasticity,EngineeringAnalysiswithBoundaryElements.Vol.27,pp.259-268,2003[18]MTanaka,JMZhang,TMatsumoto,AGuzik,Evaluationofheatconctingpropertiesofcurved-CNTcompositesbythehybridBNM,TransactionsoftheJapanSocietyforComputationalMethodsinEngineering,Vol.3,pp.45-48,2003[19]MTanaka,JMZhang,TMatsumoto,Boundary-typemeshlesssolutionsofpotentialproblems:ComparisonbetweensingularandregularformulationsinhybridBNM,TransactionsofJASCOME,JournalofBoundaryElementMethods,Vol.20,pp.21-26,2003[20]JMZhang,ZHYao,HLi,Ahybridboundarynodemethod,InternationalJournalforNumericalMethodsinEngineering.Vol.53,pp.751-763,2002[21]JMZhang,ZHYao,Analysisof2-Dthinstructuresbythemeshlessregularhybridboundarynodemethod,ActaMechanicaSolidaSinica,Vol.15,No.1,pp.36-44,2002[22]JMZhang,ZHYao,Meshlessregularhybridboundarynodemethod,ComputerModelinginEngineering&Sciences.2:307-318,2001.(referredin:"TheMeshlessLocalPetrov-Galerkin(MLPG)Method",byS.N.Atluri&S.Shen,TechSciencePress,2002)[23]李宏,张见明,螺旋焊管成形过程的有限元分析,石油机械.29卷,第9期,30-32页,2001[24]张见明,姚振汉,李宏,二维位势问题的杂交边界点法,重庆建筑大学学报.22卷,第6期,105-107页,2000[25]张见明,修井机井架危险截面部位的结构改进,石油机械,26卷,第6期,40-42页,1998[26]张见明,修井机井架的应力分析及结构改进,石油矿场机械,27卷,第2期,17-21页,1998[27]张见明,石油压裂车泵头体应力集中的原因和规律,上海力学,18卷,第4期,343-347页,1997[28]张见明,用方案选择法改进抽油机支架结构,石油机械,25卷,第6期,30-32页,1997会议文集[1]J.M.Zhang,Masa.Tanaka,Effectoftreedatastructuresandp-adaptivityonfastmultipolemethod,In:H.NoguchiandM.Kitamura(eds.)ProceedingsofthesecondInternationalConferenceonComputationalMethods,4-6April2007,Hiroshima,pp273,2007[2]Masa.Tanaka,J.M.Zhang,StudyonthermalpropertiesofCNT-basedcompositesbytheHybridBoundaryNodeMethodcombinedwithasimplifiedapproach,In:Z.H.Yao,M.W.YuanandW.X.Zhong(eds.),ProceedingsoftheSixthWorldCongressofComputationalMechanics,5-10Sept.2004,Beijing,China,TsinghuaUniversityPress,Springer,Vol.1,pp.667-672,2004.[3]J.M.Zhang,Masa.Tanaka,Thehybridboundarynodemethodacceleratedbythefastmultipoleexpansion,In:Z.H.Yao,M.W.YuanandW.X.Zhong(eds.),ProceedingsoftheSixthWorldCongressofComputationalMechanics,5-10Sept.2004,Beijing,China,TsinghuaUniversityPress,Springer,Vol.1,pp.770-775,2004[4]H.T.Wang,J.M.Zhang,Z.H.Yao,S.Cen,TheevaluationofsingularintegralsinMLS-basedandRBF-basedboundary-onlymeshlessmethods(abstract),In:Z.H.Yao,M.W.YuanandW.X.Zhong(eds.),ProceedingsoftheSixthWorldCongressofComputationalMechanics,5-10Sept.2004,Beijing,China,TsinghuaUniversityPress,Springer,Vol.2,pp.378,2004[5]Masa.Tanaka,J.M.Zhang,M.Toshiro,Multi-domainhybridBNMforpredictionofthermalpropertiesofCNTcomposites.In:T.HonmaandMasa.Tanaka(eds.),ProceedingsoftheFirstAsia-PacificInternationalConferenceonComputationalMethodsinEngineering(ICOME2003,Sapporo,Japan),pp.3-12,2003[6]J.M.Zhang,Z.H.Yao,Masa.Tanaka,ABoundary-typemeshlessmethodforanalysisofthinstructures,TransactionsofJASCOME,JournalofBoundaryElementMethods,Vol.19,pp.59-64,2002[7]J.M.Zhang,Z.H.Yao,RegularHybridBoundaryNodeMethod,in:C.M.Wang,G.R.LiuandK.K.Ang(eds.),Proceedingsofthe2ndInternationalConferenceonStructuralStabilityandDynamics,Singapore,pp.16-18,2002[8]J.M.Zhang,Z.H.Yao,ABoundary-typeMeshlessMethodfor3DPotentialProblems,in:ZhenhanYaoandM.H.Aliabadi(eds.),ProceedingsoftheThirdInternationalConferenceonBoundaryElementTechniques(BETeq,Beijing,2002),TUP/Springer,pp.298-302,2002[9]J.M.Zhang,Z.H.Yao,Anewmeshlessregularhybridboundarynodemethod.In:K.J.Bathe(eds.),ProceedingsoftheFirstMITConferenceonComputationalFluidandSolidMechanics,Boston,Massachusetts.Vol.2:1680-1682,2001[10]张见明,姚振汉,一种新型无网格法——杂交边界点法.见：袁明武,孙树立编,工程与科学中的计算力学.北京：北京大学出版社,339-343,2001会议发言：1.“Effectoftreedatastructuresandp-adaptivityonfastmultipolemethod”Insymposium:InternationalConferenceonComputationalMethods2007,Hiroshima,Japan,April4-6,20072.“AdaptiveSpatialDecompositioninFastMultipoleMethod”Insymposium:SecondAsia-PacificInternationalConferenceonComputationalMethodsinEngineering2006,Hefei,Anhui,China,Nov.14-16,20063.“Anewadaptivenode-clusteralgorithminFastMultipoleMethod”Insymposium:The7thWorldCongressonComputationalMechanics,LosAngeles,California,USA,July16-22,20064.“Large-scalethermalanalysisofthermalpropertiesofCNT/polymercompositeswithvariousCNTshapesanddistribution”(keynote)Insymposium:The7thWorldCongressonComputationalMechanics,LosAngeles,California,USA,July16-22,20065.“MeshlessandfastsimulationofthermalbehaviorofCNT-basedcomposites”Insymposium:IABEM2006Conference,Graz,AUSTRIA,July10-12,20066.“HybridBoundaryNodeMethod(HdBNM)appliedtothesteady-stateheatconctionproblemoffunctionallygradedmaterials”Insymposium:IABEM2006Conference,Graz,AUSTRIA,July10-12,20067.“ShapeOptimizationofCNTforEnhancingThermalConctanceofCNT-basedComposites”Insymposium:JSMEHokuriku-ShinetsuBranch43thConference,Nagano,Japan,Mar.9,20068.“AneffectivetreedatastructureinFastMultipoleMethod”Insymposium:JASCOMECETC2006,Nagoya,Japan,Jun.30,20069.“AnalysisofSteady-stateHeatConctioninFunctionallyGradedMaterialsviaBoundary-typeMeshlessMethod(HdBNM)”Insymposium:JSMEHokuriku-ShinetsuBranch43thConference,Nagano,Japan,Mar.9,200610.“Large-scalethermalanalysisofcompositesembeddedwithCNTsofarbitraryshapesandrandomdistribution”Insymposium:SymposiumonAdvancedComputationalMethodsinEngineering2005,Tokyo,Japan,Dec.9,200511.“AdvancedsimulationofCNTcompositesbyafastmultipolehybridboundarynodemethod”Insymposium:JSME16thComputationalMechanicsCongress,Tsukuba,Japan,Nov.19-21,200512.“Acceleratingmulti-domainhybridboundarynodemethodwithfastmultipolemethod”Insymposium:JASCOMECETC2005,Nagoya,Japan,Jun.24,200513.“FasthybridBNManalysisofheatconctionpropertiesofCNT-basedcomposites”Insymposium:JASCOME21stSymposiumonBoundaryElementMethods,Kyoto,Japan,Dec.2,200414.“Boundary-onlyandfastmeshlessanalysisof3Dpotentialproblems”(keynote)Insymposium:JSME17thComputationalMechanicsCongress,Sendai,Japan,Nov.16-19,200415.“StudyonthermalpropertiesofCNT-basedcompositebytheHybridBoundaryNodeMethodcombinedwithasimplifiedmathematicmodel”(keynote)Insymposium:WCCMVIinconjunctionwithAPCOM’04,Beijing,China,Sept.5-10,200416.“HybridBoundaryNodeMethodacceleratedbyFastMultipoleMethodfor3Dpotentialproblems”(keynote)Insymposium:WCCMVIinconjunctionwithAPCOM’04,Beijing,China,Sept.5-10,200417.“AtreedatastructureforMLSapproximationofboundaryvariablesinHybridBNM”Insymposium:JASCOMECETC2004,Nagoya,Japan,Jul.9,200418.“InvestigationoftheequivalentheatconctivityofCNT-basedcompositeusingasimplifiedapproach”Insymposium:JSME16thComputationalMechanicsCongress,Kobe,Japan,Nov.22-24,200319.“Boundary-typemeshlesssolutionsofpotentialproblems:ComparisonbetweensingularandregularformulationsinHybridBNM”Insymposium:JASCOME20thSymposiumonBoundaryElementMethods,Nagoya,Japan,Dec.5,200320.“Multi-domainHybridBNMforpredictionofthermalpropertiesofCNTcomposites”Insymposium:FirstAsia-PacificInternationalConferenceonComputationalMethodsinEngineering2003,Sapporo,Japan,Nov.5-7,200321.“StudyonheatconctionpropertiesofCNTcomposites”Insymposium:M&M2003MaterialMechanicsConference,Toyama,Japan,Sept.24-26,200322.“AnapplicationofthemeshlessBEMtoevaluationofthermalpropertiesofCNTcomposites”Insymposium:MechanicalEngineeringCongress,2003Japan(MECJ-03),Tokushima,Japan,Aug.5-8,200323.“Evaluationofheatconctingpropertiesofcurved-CNTcompositesbythehybridBNM”Insymposium:JASCOMECETC2003,Tokyo,Japan,Jun.20,200324.“Thehybridboundarynodemethodfor3Dpotentialproblems”(Invited)Insymposium:thefourthforumofJapanSocietyforComputationalMethodsinEngineering,Tokyo,Japan,March28,200325.“Aboundary-typemeshlessmethodforanalysisofthinstructures”Insymposium:JASCOME19thSymposiumonBoundaryElementMethods,Tokyo,Japan,Dec.6,200226.“一种新型无网格法—杂交边界点法”中国计算力学大会,广州,2001年12月5-8日27.“二维位势问题的杂交边界点法”第六届工程中边界元法会议,重庆,2000年12月4-7日TeachingPhilosophy：Huineng,oneofthegreatestBuddhistmonksinChinesehistory,pointedtothemoonwithhisindexfinger,andsaidtothenunWuzangni:“Myfingerisindicatingtoyouwherethemoonis.Butbyonlylookingatmyfinger,youwoundneverseethemoon.”Accordingtomyobservation,therearetwomaintypesofmotivationforlearning.Oneistoobtainhighergradesinexaminations;theotheristounderstandnaturebecauseofaninnerinterestanddesiretothinkcreatively.Differentmotivationleadstoadifferentlearningattitudeandapproach.Studentswiththefirsttypeofmotivationseldomrelatethetheorytheylearnttotheirexperience.Theywouldjusttrytomemorizeandrecognizepatternsinwell-definedproblems,andthentofitthosepatternsintoanygivenproblems.Usingthisapproach,theymaybeabletoeasilyscorehighlyinexaminationswithoutreallyunderstandingtheconcepts.However,afterexaminationtheywouldreturnallthattheyhavelearnt(ormoreprecisely,memorized)totheirteachers.Onthecontrary,thestudentswiththesecondtypeofmotivationforlearninghavebuiltintheirbrainasystematiccognitivestructurethatrepresentsanimageofnature.Whenevertheylearn,theyusenewknowledgetoexpandandsimplifythestructure.(Sciencehastheadvantageofusingrelativelyfewconceptsandrulestodescribenature.)Therefore,theknowledgetheyhavelearnt,oldandnew,theoreticalandempirical,ismergedandintegratedintoone.Tothem,textbookismerelyameansforacquiringknowledge,nottheend.Basedontheobservationabove,Ibelievethatagoodteachershouldstrivetoachievethefollowingobjectives.nCreateacooperativebutchallengingatmosphereinordertonurturestudents’interestinnatureandloveoflearning.Encouragethejoyofgraspinganewidea.Toomuchfocusongradingdetailsmaykillthejoyoflearning.nDiscouragerotelearning.Beclear,fair,andconsistentinadministrativeandclassmanagementsothatstudentsareencouragedtolearn.nVisualizeabstractconcepts,explainhowconceptsarederivedfromnaturalphenomena,anddevelopintuitivefeelingsforconcepts.(Mechanicsconceptsareusuallyabstract,andinmyopinion,creativethinkingisimpossiblewithoutintuition.)nWheneverpossible,engagethestudentsinresearch,lettingthemnotonlyseeestablishedresults,butalsoallowthemtoexperiencethethrillofdiscoveringnewones.

个人情况姓名：高晖性别：男出生年月：1972.10民族：汉职称：副研究员最后学历、学位：工学博士（在读）工作单位：湖南大学汽车车身先进设

1、个人基本情况：姓名：姜潮性别：男出生年月：1978.9民族：汉政治面貌：中共党员职称职务：副教授，硕士生导师最后学历、学位：工学博士

个人情况姓名：吕冰海性别：男出生年月：1978年1月学位：工学博士职称：副研究员工作单位：湖南大学机械与运载工程学院（国家高效磨削工程技术研究中

个人情况姓名：毛建中性别：男出生年月：1963年6月民族：汉职称：高级讲师工作单位：湖南大学机械与汽车工程学院通讯地址：湖南省长沙市湖南大学机械与汽车工程学院

个人情况姓名：谭理刚出生年月：1975年5月籍贯：湖南湘乡职称：副教授硕士师导师最后学位：硕士电子邮箱：tlg9@163.com通讯地址：湖南大学机械与运