高层建筑结构形式The Structure Form of HighRise Buildings.docx

高层建筑结构形式The Structure Form of HighRise Buildings.docx

《高层建筑结构形式The Structure Form of HighRise Buildings.docx》由会员分享，可在线阅读，更多相关《高层建筑结构形式The Structure Form of HighRise Buildings.docx（13页珍藏版）》请在冰豆网上搜索。

高层建筑结构形式TheStructureFormofHighRiseBuildings

外文文献:

TheStructureFormofHigh-RiseBuildings

ABSTRACT：

High-risebuildingistopointtoexceedacertainheightandlayersmultistorybuildings.IntheUnitedStates,24.6mor7layeraboveashigh-risebuildings;InJapan,31mor8layerandaboveashigh-risebuildings;InBritain,tohaveequaltoorgreaterthan24.3marchitectureashigh-risebuildings.Since2005provisionsinChinamorethan10layersofresidentialbuildingsandmorethan24meterstallothercivilbuildingforhigh-risebuildings.

KEYWARD：

High-RiseBuildings；Shear-WallSystems；Rigid-FrameSystems

1.High-risebuildingprofiles

Althoughthebasicprinciplesofverticalandhorizontalsubsystemdesignremainthesameforlow-,medium-,orhigh-risebuildings,whenabuildinggetshightheverticalsubsystemsbecomeacontrollingproblemfortworeasons.Higherverticalloadswillrequirelargercolumns,walls,andshafts.But,moresignificantly,theoverturningmomentandthesheardeflectionsproducedbylateralforcesaremuchlargerandmustbecarefullyprovidedfor.

Theverticalsubsystemsinahigh-risebuildingtransmitaccumulatedgravityloadfromstorytostory,thusrequiringlargercolumnorwallsectionstosupportsuchloading.Inadditionthesesameverticalsubsystemsmusttransmitlateralloads,suchaswindorseismicloads,tothefoundations.However,incontrasttoverticalload,lateralloadeffectsonbuildingsarenotlinearandincreaserapidlywithincreaseinheight.Forexampleunderwindload,theoverturningmomentatthebaseofbuildingsvariesapproximatelyasthesquareofabuildingsmayvaryasthefourthpowerofbuildingsheight,otherthingsbeingequal.Earthquakeproducesanevenmorepronouncedeffect.

Whenthestructureforalow-ormedium-risebuildingisdesignedfordeadandliveload,itisalmostaninherentpropertythatthecolumns,walls,andstairorelevatorshaftscancarrymostofthehorizontalforces.Theproblemisprimarilyoneofshearresistance.Moderateadditionbracingforrigidframesin“short”buildingscaneasilybeprovidedbyfillingcertainpanels（orevenallpanels）withoutincreasingthesizesofthecolumnsandgirdersotherwiserequiredforverticalloads.

Unfortunately,thisisnotisforhigh-risebuildingsbecausetheproblemisprimarilyresistancetomomentanddeflectionratherthanshearalone.Specialstructuralarrangementswilloftenhavetobemadeandadditionalstructuralmaterialisalwaysrequiredforthecolumns,girders,walls,andslabsinordertomadeahigh-risebuildingssufficientlyresistanttomuchhigherlateraldeformations.

Aspreviouslymentioned,thequantityofstructuralmaterialrequiredpersquarefootoffloorofahigh-risebuildingsisinexcessofthatrequiredforlow-risebuildings.Theverticalcomponentscarryingthegravityload,suchaswalls,columns,andshafts,willneedtobestrengthenedoverthefullheightofthebuildings.Butquantityofmaterialrequiredforresistinglateralforcesisevenmoresignificant.

Withreinforcedconcrete,thequantityofmaterialalsoincreasesasthenumberofstoriesincreases.Buthereitshouldbenotedthattheincreaseintheweightofmaterialaddedforgravityloadismuchmoresizablethansteel,whereasforwindloadtheincreaseforlateralforceresistanceisnotthatmuchmoresincetheweightofaconcretebuildingshelpstoresistoverturn.Ontheotherhand,theproblemofdesignforearthquakeforces.Additionalmassintheupperfloorswillgiverisetoagreateroveralllateralforceundertheofseismiceffects.

Inthecaseofeitherconcreteorsteeldesign,therearecertainbasicprinciplesforprovidingadditionalresistancetolateraltolateralforcesanddeflectionsinhigh-risebuildingswithouttoomuchsacrifireineconomy.

（1）Increasetheeffectivewidthofthemoment-resistingsubsystems.Thisisveryusefulbecauseincreasingthewidthwillcutdowntheoverturnforcedirectlyandwillreducedeflectionbythethirdpowerofthewidthincrease,otherthingsremainingcinstant.However,thisdoesrequirethatverticalcomponentsofthewidenedsubsystembesuitablyconnectedtoactuallygainthisbenefit.

（2）Designsubsystemssuchthatthecomponentsaremadetointeractinthemostefficientmanner.Forexample,usetrusssystemswithchordsanddiagonalsefficientlystressed,placereinforcingforwallsatcriticallocations,andoptimizestiffnessratiosforrigidframes.

（3）Increasethematerialinthemosteffectiveresistingcomponents.Forexample,materialsaddedinthelowerfloorstotheflangesofcolumnsandconnectinggirderswilldirectlydecreasetheoveralldeflectionandincreasethemomentresistancewithoutcontributingmassintheupperfloorswheretheearthquakeproblemisaggravated.

（4）Arrangetohavethegreaterpartofverticalloadsbecarrieddirectlyontheprimarymoment-resistingcomponents.Thiswillhelpstabilizethebuildingsagainsttensileoverturningforcesbyprecompressingthemajoroverturn-resistingcomponents.

（5）Thelocalshearineachstorycanbebestresistedbystrategicplacementifsolidwallsortheuseofdiagonalmembersinaverticalsubsystem.Resistingtheseshearssolelybyverticalmembersinbendingisusuallylesseconomical,sinceachievingsufficientbendingresistanceinthecolumnsandconnectinggirderswillrequiremorematerialandconstructionenergythanusingwallsordiagonalmembers.

（6）Sufficienthorizontaldiaphragmactionshouldbeprovidedfloor.Thiswillhelptobringthevariousresistingelementstoworktogetherinsteadofseparately.

（7）Createmega-framesbyjoininglargeverticalandhorizontalcomponentssuchastwoormoreelevatorshaftsatmultistoryintervalswithaheavyfloorsubsystems,orbyuseofverydeepgirdertrusses.

Rememberthatallhigh-risebuildingsareessentiallyverticalcantileverswhicharesupportedattheground.Whentheaboveprinciplesarejudiciouslyapplied,structurallydesirableschemescanbeobtainedbywalls,cores,rigidframes,tubularconstruction,andotherverticalsubsystemstoachievehorizontalstrengthandrigidity.

2.Shear-WallSystems

Shearwallstructureisreinforcedconcretewallboardtoreplacewithbeam-columnframestructureof,canundertakeallkindsofloads,andcancausetheinternalforceofthestructureeffectivelycontrolthehorizontalforceswithreinforcedconcretewallboard,theverticalandhorizontalforcetobearthestructurecalledtheshearwallstructure.Thisstructurewasinhigh-risebuildingaplenty,so,homebuyerscanneednotbeblindedbyitsterms.Shearwallstructurereferstotheverticalofreinforcedconcretewallboard,horizontaldirectionisstillreinforcedconcreteslabofcarryingthewall,sobigasystem,thatconstitutestheshearwallstructure.Whycallshearwallstructure,actually,thehigherthewindloadbuildingtoitspushisbigger,sothewinddirectionofpushingthatlevel,suchaspromotingthehouse,belowwasabinding,theabovethewindblowsshouldproducecertainswingfloating,swingfloatingrestrictionsontheverysmall,verticalwallboardtoresist,thewindover,wantsithasaforceontop,makefloordonotproduceswingorshiftfloatdegreessmall,inparticulartheboundsofstructure,suchas:

thewindfromoneside,thenthereisaconsiderableforceboardwithitbravedalongtheverticalwallboard,theheightoftheforce,isequivalenttoapairofequivalentshearing,likeawithscissorscutfloorofforcebuildingandthefartherdown,accordingly,theshearstrengthofsuchwallboardthatshearwallpanels,alsoexplainsthewallboardverticalbearingofverticalforcealsonotonlyshouldbearthehorizontalwindloading,includingthehorizontalseismicforcestooneofitspushwind.

Whenshearwallsarecompatiblewithotherfunctionalrequirements,theycanbeeconomicallyutilizedtoresistlateralforcesinhigh-risebuildings.Forexample,apartmentbuildingsnaturallyrequiremanyseparationwalls.Whensomeofthesearedesignedtobesolid,theycanactasshearwallstoresistlateralforcesandtocarrytheverticalloadaswell.Forbuildingsuptosome20storise,theuseofshearwallsiscommon.Ifgivensufficientlength,suchwallscaneconomicallyresistlateralforcesupto30to40storiesormore.

However,shearwallscanresistlateralloadonlytheplaneofthewalls（i.e.notinadiretionperpendiculartothem）.Therefore,itisalwaysnecessarytoprovideshearwallsintwoperpendiculardirectionscanbeatleastinsufficientorientationsothatlateralforceinanydirectioncanberesisted.Inaddition,thatwalllayoutshouldreflectconsiderationofanytorsionaleffect.

Indesignprogress,twoormoreshearwallscanbeconnectedtofromL-shapedorchannel-shapedsubsystems.Indeed,internalshearwallscanbeconnectedtofromarectangularshaftthatwillresistlateralforcesveryefficiently.Ifallexternalshearwallsarecontinuouslyconnected,thenthewholebuildingsactsastube,andconnected,thenthewholebuildingsactsasatube,andisexcellentShear-WallSystemsresistinglateralloadsandtorsion.

Whereasconcreteshearwallsaregenerallyofsolidtypewithopeningswhennecessary,steelshearwallsareusuallymadeoftrusses.Thesetrussescanhavesinglediagonals,“X”diagonals,or“K”arrangements.Atrussedwallwillhaveitsmembersactessentiallyindirecttensionorcompressionundertheactionofview,andtheyoffersomeopportunityanddeflection-limitationpointofview,andtheyoffersomeopportunityforpenetrationbetweenmembers.Ofcourse,theinclinedmembersoftrussesmustbesuitableplacedsoasnottointerferewithrequirementsforwindowsandfor