简介:Anewrapidprototypingsystemandresearchonitstechnicalparameter,AStressBasedWrinklingCriterion,Aboutlinearandquadratic'Solid-Shelrelementsatlargedeformations,Anorthotropicspecificdamagemodelwithinclusionconsideration,ANCORBOND:Aparadigmshift,Anisotropicbehaviorofaluminiumalloyssheets.
简介:AWaveguideSwitchDesignUsingElectromagneticBandgapSubstrates;Abradingofbabbittmetalmouldwithhighefficiency;ChillcastingoflocomotivedieselIODIO0cylinderliners;Complexevaluationofmaterialsformetalmolds;CurvedSiliconElectronics;Developmentofcurvedholemachiningwithelectrochemicalmachining(lstreport)-processingmethodbyactuator-lesstool;DevelopmentofCurvedHoleProcessingTechniqueUsingElectrochemicalMachining(2ndReport)-Controllabilityofcurvatureofmachinedcurvedhole-
简介:Improvingthequalityofringcastingsfromnitrogen-containingcorrosion-resistantsteels;Influenceofabrasiveflowmachiningonreducingfuelconsumption,loweringemissionsandincreasingpower;ProductionofShipPropellerSteelBladesinSandMoldswithElectroslagReplenishment;Prototypingprocessproducessandmolds,coresforcastingsproduction。
简介:Continuousshear-amethodforstudyingmaterialelementspassingastationaryshearplane;DesignofHardWaterStableEmulsifierSystemsforPctroleum-andBio-basedSemi-syntheticMetalworkingFluids;Dielifepredictioninrapidprototypedies;Evolutionofdiesurfacesduringrepeatedstretch-bendsheetsteeldeformation;F.E.M.characterizationofdamagclawparametersbyinversetechnique;
简介:Aninfraredmicroprocessorpyrometerwithdiaphragmaticoptics,DevelopmentofMeltingTechnologyforVolumeReductionofRadioactiveScrapMetals,Higherefficiencyindustrialfurnaces,Theelectrodemetalmeltingaadtransferatthecoatedelectrodesarcwelding(review),Theelectrodemetalmeltingandtransferatthecoatedelectrodesarcwelding(review).
简介:采用Gleeble热模拟方法研究Mg-6Zn-1Al-0.3Mn变形镁合金在温度为200-400°C,应变速率为0.01-7s-1条件下的热压缩变形行为。结果表明,变形温度和应变速率显著影响其热变形行为。通过计算获得了热变形激活能及应力指数分别为Q=166kJ/mol,n=5.99,且其本构方程为ε&=3.16×1013[sinh(0.010σ)]5.99exp[-1.66×105/(RT)]。热压缩显微组织观察表明:在应变速率为0.01-1s-1的条件下,在250°C热压缩变形时初始晶粒晶界及孪晶处发生了部分动态再结晶,而在高温(350-400°C)条件下,发生了完全动态再结晶且再结晶晶粒尺寸随着应变速率的增加而减小。获得的较优的变形条件为温度330-400°C、应变速率为0.01-0.03s-1以及350°C、应变速率为1s-1。