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1、NASATechnicalMemorandum110302CompressionResponseofaSandwichFuselageKeelPanelWithandWithoutDamageDavidM.McGowanandDamodarR.AmburLangleyResearchCenter,Hampton,VirginiaFebruary1997NationalAeronauticsandSpaceAdministrationLangleyResearchCenterHampton,Virginia23681-00011COMPRESSIONRESPONSEOFASANDWICHFUSELAGEKEELPANELWITHANDWITHOUTDAMAGEDavidM.McGowanandDamodarR.AmburNASALangleyResearchCenterHampton,VAABSTRACTResultsarepresentedfromanexperimentalandanalyticalstudyofasandwichfuselagekeelpanelwithandwi。
2、thoutdamage.Thefuselagekeelpanelisconstructedofgraphite-epoxyskinsbondedtoahoneycombcore,andisrepresentativeofahighlyloadedfuselagekeelstructure.Thefacesheetsofthepanelcontainseveralterminatedordroppedpliesalongthelengthofthepanel.Theresultspresentedprovideabetterunderstandingoftheloaddistributionindamagedandundamagedthick-face-sheetcompositesandwichstructurewithdroppedpliesandofthefailuremechanismsofsuchstructureinthepresenceoflow-speedimpactdamageanddiscrete-sourcedamage.Theimpact-damagecondit。
3、ionstudiedcorrespondstobarelyvisibleimpactdamage(BVID),andthediscrete-sourcedamageconditionstudiedisanotchmachinedthroughbothfacesheets.Resultsarepresentedfromanimpact-damagescreeningstudyconductedonanotherpanelofthesamedesigntodeterminetheimpactenergynecessarytoinflictBVIDonthepanel.Resultsarepresentedfromcompressiontestsofthepanelinthreeconditions:undamaged;BVIDintwolocations;andBVIDintwolocationsandanotchthroughbothfacesheets.Surfacestrainsinthefacesheetsoftheundamagedpanelandthenotchedpanelo。
4、btainedexperimentallyarecomparedwithfiniteelementanalysisresults.Theexperimentalandanalyticalresultssuggestthatforthedamageconditionsstudied,discrete-sourcedamageinfluencesthestructuralperformancemorethanBVID.INTRODUCTIONOneoftheprimarygoalsoftheAdvancedCompositesTechnology(ACT)programistodeveloptheenablingtechnologythatwillallowcompositematerialstobeusedintheprimarywingandfuselagestructuresofthenextgenerationadvancedsubsonictransportaircraft.UndertheACTprogram,theBoeingCommercialAircraftGroup(B。
5、CAG)hasbeenworkingtodevelopcost-effectiveandstructurallyefficientcompositefuselagestructure.1Thefocusofthisworkhasbeenonthefuselagesectionjustaftofthemainlandinggearwheelwellofamodernwide-bodytransportwhichisdesignatedasSection46onaBoeing2aircraft.Thisfuselagesectionis33feetlongand20feetindiameter,andcontainscrown,sideandkeelquadrantsections(seeFig.1).2AsshowninFig.1,thecurrentfuselagedesignconceptutilizesskin-stringerconstructioninthecrownquadrantsectionandsandwichconstructioninthesideandkeelqu。
6、adrantsections.Sandwichstructureisbeingusedinthedesignofthesideandkeelquadrantsectionsbecauseithasthepotentialforhighstructuralefficiencyandlow-costmanufacturingandhasbeenusedextensivelyinstiffness-criticalaircraftsecondarystructures.Theapplicationofsandwichstructuresinaircrafthasbeenrestrictedinthepastduetoundesirablemoistureabsorptionandmoistureretentioncharacteristics,andduetoaninsufficientunderstandingoflow-speedimpact-damagemechanismsandtheeffectofsuchdamage,aswellaspenetrationdamage,onthes。
7、tructuralperformanceofsandwichstructures.Nowthatsandwichconceptsarebeingconsideredforapplicationtoaircraftprimarystructures,understandingtheeffectsoflow-speedimpactdamageandpenetrationdamageonsandwichstructureshasbecomeimportant.AjointNASA/Boeingstudyofthetechnologyissuesassociatedwithusingcomposite-face-sheetsandwichstructureinsubsonictransportfuselagesideandkeelpanelsisbeingconductedaspartoftheACTprogram.Thisstudyconsistsofmanufacturing,testingandanalyzingfull-scalekeel-andside-quadrant-sectio。
8、nsandwichpanels.Thepresentpaperpresentstheresultsofanexperimentalandanalyticalstudyofthecompressionresponseofasandwichfuselagekeelpanelwithandwithoutdamage.ThetestpanelisrepresentativeofthestructurethatwouldbeusedinthekeelquadrantsectionofthehighlyloadedforwardendofSection46.Theobjectivesofthestudyaretounderstandtheloaddistributioninthethickcompositefacesheetsofthesandwichpanelwithandwithoutimpactdamage,andtodeterminepanelfailuremechanismsinthepresenceofbothimpactdamageandpenetratingdiscrete-sou。
9、rcedamage.Theimpact-damageconditionsimulatedintheexperimentalstudycorrespondstobarelyvisibleimpactdamage(BVID).Theimpact-energylevelsnecessarytoinflictBVIDonthepanelaredeterminedthroughanimpact-damagescreeningtestthatwasperformedusinganotherpanelofthesamedesign.Thesimulateddiscrete-sourcedamagecorrespondstopenetrationdamagethroughbothfacesheets.Thepenetrationdamageissimulatedbyanotchmachinedthroughbothfacesheets.Theanalyticalstudyconsistsoffiniteelementanalysesoftheundamagedpanelandthenotchedpan。
10、el.Testresultsforsurfacestrainsarecomparedwithfiniteelementanalysisresultsfortheundamagedpanelandthenotchedpanel.Face-sheetsurfacestrainsthatillustrateloadredistributionaroundtheimpact-damageandnotchsitesarealsopresented.Finally,thepresentpaperdescribesthepanelfailurecharacteristicsinthepresenceofBVIDanddiscrete-sourcedamage.3TESTPANELDESCRIPTIONTheforwardkeelpaneltestarticleisrepresentativeofthestructurethatwouldbeusedinthekeelquadrantsectionofthehighlyloadedforwardendofSection46.Asdiscussedinre。
本文标题:R. Compression Response of a Sandwich Fuselage Kee
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