简介：ShanghaiinitsmediadevelopmenthasinrecentyearsdonealottoimprovemutualunderstandingbetweenChina(Shanghaiinparticular)andtherestoftheworld.ButproblemsstillexistinShanghai’sinternationalcommunication.Andtheeffectsofsuchcommunicationareyettobestudied.ItisconsideredadvisableforShanghai’sEnglish-languagemediaandmediawithEnglish-languageservicestoconductsystematicstudiesoftheforeignaudienceswhoseculturalbackgrounds,problemsstillexistininternationalcommunicationbyShanghai’smedia.Forexample,HowlargearesizesoftheforeignaudiencesofShanghai’sEnglish-languagenewspapersandShanghaimedia’sEnglish-languagebroadcastingandonlineservices

简介：shanghaiinitsmediadevelopmenthasinrecentyearsdonealottoimprovemutualunderstandingbetweenchina(shanghaiinparticular)andtherestoftheworld.butproblemsstillexistinshanghai’sinternationalcommunication.andtheeffectsofsuchcommunicationareyettobestudied.itisconsideredadvisableforshanghai’senglish-languagemediaandmediawithenglish-languageservicestoconductsystematicstudiesoftheforeignaudienceswhoseculturalbackgrounds,problemsstillexistininternationalcommunicationbyshanghai’smedia.forexample,howlargearesizesoftheforeignaudiencesofshanghai’senglish-languagenewspapersandshanghaimedia’senglish-languagebroadcastingandonlineservices

简介：Anenergyapproachisproposedtodescribetheelectromigrationinducedgrainrotationunderhighcurrentdensity.Thedrivingforceisassumedtoarisefromthegrain-boundaryenergyreductionandincreaseoftheinnerenergyfromthejouleheating.Energydissipatesbythegrainboundarydiffusionunderelectromigrationandviscousboundaryslidingisconsidered.Basedontheconservationofenergyproductionanddissipation,anequilibriumequationisdevelopedtopredictthegrainrotationrateanalytically.Itisrecognizedthatthegrainrotateswiththereducingofelectricalresistivityandinverselyproportionaltothegrainlength.Thetheoreticalpredictioniscomparedwiththeexperimentaldata,whichshowsgoodaccuracyontherotationtrendandthespecificrotationrate.

简介：Sinteredsiliconcarbide(SiC)wasetchedbyadielectricbarrierdischargesource.Ahighvoltagebipolarpulsewasusedwithheliumgasfortheplasmageneration.OnestablefilamentplasmawasgeneratedandcouldbeusedforSiCetching.Astheprocessinggas(NF3)mixingrateincreased,thewidthanddepthoftheetchingprofilebecamenarroweranddeeper.ThedifferentiatedV-QLissajousmethodwasusedformeasuringthecapacitances(Ceq)oftheelectrodeaftertheplasmaturnedon.ThewidthoftheetchingprofilewasproportionaltoCeq.Asthecurrentpeakvalue/smxofthesubstratecurrentincreased,thevolumeremovalrateofSiCincreased.Theetchdepthwasproportionaltotheratioof/smxtoCeq.Additionally,becauseofthedifferentcharacteristicsoftheplasmadisksonSiCsubstratebythevoltagepolarity,theetchingprofilewasunstable.However,inhighNF3mixingprocess,theetchingprofilebecamestableanddeeper.

简介：Environmentalloadistheprimaryfactorinthedesignofoffshoreengineeringstructuresandoceancurrentistheprincipalenvironmentalloadthatcausesunderwaterstructuralfailure.Incomputationalanalysis,thecalculationofcurrentloadismainlybasedonthecurrentprofile.Thecurrentprofilemodel,whichisbasedonastructuralfailurecriterion,isconducivetodecreasingtheuncertaintyofthecurrentload.Inthisstudy,weusedprototypemonitoringdataandtheempiricalorthogonalfunction(EOF)methodtoinvestigatethecurrentprofileintheSouthChinaSeaanditscorrelationwiththedesignofunderwaterstructuralstrengthandthedynamicdesignoffatigue.Theunderwaterstructuralstrengthdesigntakesintoaccountthesizeofthestructureandtheservicewaterdepth.Weproposeprofilesfortheoverallandlocaldesignsusingtheinversefirst-orderreliabilitymethod(IFORM).Weextractedthecharacteristicprofilecurrent(CPC)ofthemonitoredseaareatosolvedynamicdesignproblemssuchasvortex-inducedvibration(VIV).WeusedrandomsamplingtoverifythefeasibilityofusingtheEOFmethodtocalculatetheCPCfromthecurrentdataandidentifiedthemainproblemsassociatedwithusingtheCPC,whichdeservecloseattentioninVIVdesign.Ourresearchconclusionsprovidedirectreferencesfordeterminingcurrentloadinthisseaarea.Thisanalysismethodcanalsobeusedintheanalysisofotherseaareasorfieldvariables.

简介：Upwellingcoastalsystemscanbeusedtounderstandhowdissolvedoxygenandbiologicalproductivitycontroltheaccumulationofredox-sensitivemetalsinmarinesediments.Thealuminium(Al),cadmium(Cd),iron(Fe),nickel(Ni),molybdenum(Mo),vanadium(V),totalorganiccarbon(TOC),totalnitrogen(TN)andtotalsulfur(TS)contentsinsurficialsedimentcollectedfromdifferentwaterdepths(30,70,and120m)inthreenorthernChileanbaysinfluencedbycoastalupwellingandoxygenminimumzones(OMZs)weremeasured.Principalcomponentanalysis(PCA),clusteranalysis,andSpearman'srankcorrelationwereusedtoidentifythemechanismsresponsiblefortheredox-sensitivemetalaccumulation.Thecontentofredox-sensitivemetalsandorganiccomponentsinsedimentincreasedwithincreasingwatercolumndepth,whereaslithogenicmetalsdecreased.IntheMejillonesdelSurandCalderabays,theenrichmentfactorsoftheredox-sensitivemetalsshowedenrichmentforallmetalswithdepth.TheCdandVenrichmentsaremainlytheproductofbiogenicflowtotheseabed,andtheMoandNienrichmentsareduetopreservationunderlowsubsurfaceoxygenconditions.Sulfatereductionisnotanimportantmechanismintheaccumulationofredox-sensitivemetalsinthesedimentofthethreebays.ThePCAshowedthatthebehaviorsoftheredox-sensitivemetalsandorganiccomponentsreflectdifferencesintheeffectsoftheOMZinsedimentalongthecoastofnorthernChile,withamoreintenseOMZinMejillonesdelSurbayandweakerOMZsinCalderaandInglesabays.However,thehighdegreeofenrichmentinredox-sensitivemetalsinCalderaBaycanbeattributedtotheintenseactivityoftheminingindustrynearthebay,asituationthatproducesgeochemicalbehaviorsimilartothatobservedinMejillonesdelSurBay.