简介:从张弦结构的工作机理出发,介绍了具有代表性的安徽大学体育馆张弦梁式空间网壳结构、北京大学体育馆张弦辐射桁架壳体结构和泉州市体育馆张弦平行桁架壳体结构的拉索撑杆体系在既定的刚性结构下的布置形式.在对三个体育馆屋盖结构进行静力参数分析的基础上,总结了张弦结构的空间工作机理和张弦空间结构的体系特征.分析表明,根据张弦结构的工作机理可以将相同的刚性结构与不同布置形式的索杆体系相结合构造出结构性能存在差异的张弦空间结构;整体张弦网壳具有优于局部张弦网壳的结构性能;降低曲面刚性结构产生的强大支座推力,并使结构具有足够刚度的有效途径是将刚性结构与索杆体系相结合构成自平衡的预应力张弦结构.
简介:3-Dformingofintermetallicsbyreactiverapidprototyping,AbasicstudyofDBFantennaforsmallsatelliteonNeLSproject,Aburstingfailurecriterionfortubehydroforming,AC-BANDPHASEDARRAYANTENNAUSINGDIGITALBEAMFORMINGINASURVEILLANCERADARSYSTEM,AcomparativeinvestigationoftheefficacyCO{sub}2andhigh-powerdiodelasersfortheformingofEN3mildsteelsheets,AComparativeStudyoftheFormingofEN3MildSteelSheetsWithCO2andHighPowerDiodeLasers.
简介:Anisotropyandnon-uniformityinplasticbehaviorofAZ31magnesiumalloyplates;Determinationoftruestress-strain-curvesandnormalanisotropyintensiletestswithopticalstrainmeasurement;Hydromechanicalforming-analternativeinmodernbodyproduction;Investigationoftheforminglimitsintheprocessesofsheetmetalstretching;Limitstrainsofanisotropicandsuperplasticsheetmetalforming;
简介:Anewrapidprototypingsystemandresearchonitstechnicalparameter,AStressBasedWrinklingCriterion,Aboutlinearandquadratic'Solid-Shelrelementsatlargedeformations,Anorthotropicspecificdamagemodelwithinclusionconsideration,ANCORBOND:Aparadigmshift,Anisotropicbehaviorofaluminiumalloyssheets.
简介:Continuousshear-amethodforstudyingmaterialelementspassingastationaryshearplane;DesignofHardWaterStableEmulsifierSystemsforPctroleum-andBio-basedSemi-syntheticMetalworkingFluids;Dielifepredictioninrapidprototypedies;Evolutionofdiesurfacesduringrepeatedstretch-bendsheetsteeldeformation;F.E.M.characterizationofdamagclawparametersbyinversetechnique;
简介:BearingresponseofThermoplasticComposite(TPC)Laminatesfabricatcdbyvacuumforming:experimentaltestsandsimulation;Developmentoftheprc-coat-typeadhesiveforall-olefininstrumentpanel;Modellingofisothermalconsolidationinglass-polypropylenecommingledcomposite;Ulirasonicconsolidationofaluminumtooling;AstandardforsilverCP/MASexperiments;
简介:Atrialforanexplosiveformingofaplatousingapaperasdiematerial;Applicationsandcapabilitiesofexplosiveforming;Explosiveformingofthin-wallsemi-sphericalparts;Explosiveformingtechnologyofindnstrialsphericalpressurevesselsandanumericalanalysisoftheformingprocess;Futureforexplosivematerialsprocessing;