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Design of Highway Bridges: An LRFD Approach, Third Edition PDF

533 Pages·2013·10.948 MB·English
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Design of Highway Bridges An LRFD Approach Third Edition Richard M. Barker Jay A. Puckett CoverDesign:ElizabethBrooks CoverPhotograph:CourtesyoftheNationalSteelBridgeAlliance Thisbookisprintedonacid-freepaper. Copyright©2013byJohnWiley&Sons,Inc.Allrightsreserved PublishedbyJohnWiley&Sons,Inc.,Hoboken,NewJersey PublishedsimultaneouslyinCanada Nopartofthispublicationmaybereproduced,storedinaretrievalsystem,ortransmittedinanyformorbyanymeans,electronic,mechanical, photocopying,recording,scanning,orotherwise,exceptaspermittedunderSection107or108ofthe1976UnitedStatesCopyrightAct,without eitherthepriorwrittenpermissionofthePublisher,orauthorizationthroughpaymentoftheappropriateper-copyfeetotheCopyrightClearance Center,222RosewoodDrive,Danvers,MA01923,(978)750-8400,fax(978)646-8600,oronthewebatwww.copyright.com.Requeststothe PublisherforpermissionshouldbeaddressedtothePermissionsDepartment,JohnWiley&Sons,Inc.,111RiverStreet,Hoboken,NJ07030,(201) 748-6011,fax(201)748-6008,oronlineatwww.wiley.com/go/permissions. LimitofLiability/DisclaimerofWarranty:Whilethepublisherandauthorhaveusedtheirbesteffortsinpreparingthisbook,theymakeno representationsorwarrantieswiththerespecttotheaccuracyorcompletenessofthecontentsofthisbookandspecificallydisclaimanyimplied warrantiesofmerchantabilityorfitnessforaparticularpurpose.Nowarrantymaybecreatedorextendedbysalesrepresentativesorwrittensales materials. Theadviceandstrategiescontainedhereinmaynotbesuitableforyoursituation.Youshouldconsultwithaprofessionalwhere appropriate.Neitherthepublishernortheauthorshallbeliablefordamagesarisingherefrom. Forgeneralinformationaboutourotherproductsandservices,pleasecontactourCustomerCareDepartmentwithintheUnitedStatesat(800) 762-2974,outsidetheUnitedStatesat(317)572-3993orfax(317)572-4002. Wileypublishesinavarietyofprintandelectronicformatsandbyprint-on-demand.Somematerialincludedwithstandardprintversionsofthisbook maynotbeincludedine-booksorinprint-on-demand.IfthisbookreferstomediasuchasaCDorDVDthatisnotincludedintheversionyou purchased,youmaydownloadthismaterialathttp://booksupport.wiley.com.FormoreinformationaboutWileyproducts,visitwww.wiley.com. ISBN978-0-470-90066-6;ISBN978-1-118-33010-4(ebk);ISBN978-1-118-33283-2(ebk);ISBN978-1-118-33449-2(ebk); ISBN978-1-118-41112-4(ebk);ISBN978-1-118-41113-1(ebk);ISBN978-1-118-41115-5(ebk) PrintedintheUnitedStatesofAmerica 10987654321 CONTENTS Preface xi PrefacetotheSecondEdition xiii PrefacetotheFirstEdition xv PARTI GENERALASPECTSOFBRIDGEDESIGN CHAPTER1 INTRODUCTIONTOBRIDGEENGINEERING 3 1.1 ABridgeIstheKeyElementinaTransportationSystem 3 1.2 BridgeEngineeringintheUnitedStates 3 1.2.1 StoneArchBridges 3 1.2.2 WoodenBridges 4 1.2.3 MetalTrussBridges 6 1.2.4 SuspensionBridges 8 1.2.5 MetalArchBridges 10 1.2.6 ReinforcedConcreteBridges 12 1.2.7 GirderBridges 13 1.2.8 ClosingRemarks 14 1.3 BridgeEngineer—Planner,Architect,Designer,Constructor, andFacilityManager 14 References 15 Problems 15 CHAPTER2 SPECIFICATIONSANDBRIDGEFAILURES 17 2.1 BridgeSpecifications 17 2.2 ImplicationofBridgeFailuresonPractice 18 2.2.1 SilverBridge,PointPleasant,WestVirginia,December15,1967 18 2.2.2 I-5andI-210Interchange,SanFernando,California, February9,1971 19 2.2.3 SunshineSkyway,TampaBay,Florida,May9,1980 21 2.2.4 MianusRiverBridge,Greenwich,Connecticut,June28,1983 22 2.2.5 SchoharieCreekBridge,Amsterdam,NewYork,April5,1987 24 2.2.6 CypressViaduct,LomaPrietaEarthquake,October17,1989 25 iii iv CONTENTS 2.2.7 I-35WBridge,Minneapolis,Minnesota,August1,2007 26 2.2.8 FailuresDuringConstruction 30 References 30 Problems 31 CHAPTER3 BRIDGEAESTHETICS 33 3.1 Introduction 33 3.2 NatureoftheStructuralDesignProcess 33 3.2.1 DescriptionandJustification 33 3.2.2 PublicandPersonalKnowledge 34 3.2.3 Regulation 34 3.2.4 DesignProcess 35 3.3 AestheticsinBridgeDesign 36 3.3.1 DefinitionofAesthetics 36 3.3.2 QualitiesofAestheticDesign 37 3.3.3 PracticalGuidelinesforMedium-andShort-SpanBridges 47 3.3.4 ComputerModeling 55 3.3.5 WebReferences 56 3.3.6 ClosingRemarksonAesthetics 59 References 59 Problems 60 CHAPTER4 BRIDGETYPESANDSELECTION 61 4.1 MainStructurebelowtheDeckLine 61 4.2 MainStructureabovetheDeckLine 61 4.3 MainStructureCoincideswiththeDeckLine 64 4.4 ClosingRemarksonBridgeTypes 66 4.5 SelectionofBridgeType 66 4.5.1 FactorstoBeConsidered 66 4.5.2 BridgeTypesUsedforDifferentSpanLengths 69 4.5.3 ClosingRemarks 72 References 72 Problems 73 CHAPTER5 DESIGNLIMITSTATES 75 5.1 Introduction 75 5.2 DevelopmentofDesignProcedures 75 5.2.1 AllowableStressDesign 75 5.2.2 VariabilityofLoads 76 5.2.3 ShortcomingsofAllowableStressDesign 76 5.2.4 LoadandResistanceFactorDesign 77 5.3 DesignLimitStates 77 5.3.1 General 77 5.3.2 ServiceLimitState 79 5.3.3 FatigueandFractureLimitState 80 5.3.4 StrengthLimitState 81 5.3.5 ExtremeEventLimitState 81 5.4 ClosingRemarks 82 References 82 Problems 82 CONTENTS v CHAPTER6 PRINCIPLESOFPROBABILISTICDESIGN 83 6.1 Introduction 83 6.1.1 FrequencyDistributionandMeanValue 83 6.1.2 StandardDeviation 83 6.1.3 ProbabilityDensityFunctions 84 6.1.4 BiasFactor 85 6.1.5 CoefficientofVariation 85 6.1.6 ProbabilityofFailure 86 6.1.7 SafetyIndexβ 87 6.2 CalibrationofLRFDCode 89 6.2.1 OverviewoftheCalibrationProcess 89 6.2.2 CalibrationUsingReliabilityTheory 89 6.2.3 CalibrationofFittingwithASD 93 6.3 ClosingRemarks 94 References 94 Problems 94 CHAPTER7 GEOMETRICDESIGNCONSIDERATIONS 95 7.1 IntroductiontoGeometricRoadwayConsiderations 95 7.2 RoadwayWidths 95 7.3 VerticalClearances 96 7.4 Interchanges 96 References 97 Problem 97 PARTII LOADSANDANALYSIS CHAPTER8 LOADS 101 8.1 Introduction 101 8.2 GravityLoads 101 8.2.1 PermanentLoads 101 8.2.2 TransientLoads 102 8.3 LateralLoads 114 8.3.1 FluidForces 114 8.3.2 SeismicLoads 118 8.3.3 IceForces 122 8.4 ForcesDuetoDeformations 127 8.4.1 Temperature 127 8.4.2 CreepandShrinkage 129 8.4.3 Settlement 129 8.5 CollisionLoads 129 8.5.1 VesselCollision 129 8.5.2 RailCollision 129 8.5.3 VehicleCollision 129 8.6 BlastLoading 129 8.7 Summary 130 References 130 Problems 131 vi CONTENTS CHAPTER9 INFLUENCEFUNCTIONSANDGIRDER-LINEANALYSIS 133 9.1 Introduction 133 9.2 Definition 133 9.3 StaticallyDeterminateBeams 134 9.3.1 ConcentratedLoads 134 9.3.2 UniformLoads 136 9.4 Muller–BreslauPrinciple 137 9.4.1 Betti’sTheorem 137 9.4.2 TheoryofMuller–BreslauPrinciple 138 9.4.3 QualitativeInfluenceFunctions 139 9.5 StaticallyIndeterminateBeams 139 9.5.1 IntegrationofInfluenceFunctions 142 9.5.2 RelationshipbetweenInfluenceFunctions 143 9.5.3 Muller–BreslauPrincipleforEndMoments 145 9.5.4 AutomationbyMatrixStructuralAnalysis 146 9.6 NormalizedInfluenceFunctions 147 9.7 AASHTOVehicleLoads 149 9.8 InfluenceSurfaces 156 9.9 Summary 157 References 157 Problems 157 CHAPTER10 SYSTEMANALYSIS—INTRODUCTION 161 10.1 Introduction 161 10.2 SafetyofMethods 162 10.2.1 EquilibriumforSafeDesign 162 10.2.2 StressReversalandResidualStress 165 10.2.3 RepetitiveOverloads 165 10.2.4 FatigueandServiceability 169 10.3 Summary 170 References 170 Problem 170 CHAPTER11 SYSTEMANALYSIS—GRAVITYLOADS 171 11.1 Slab–GirderBridges 171 11.2 SlabBridges 194 11.3 SlabsinSlab–GirderBridges 198 11.4 Box-GirderBridges 206 11.5 ClosingRemarks 212 References 213 Problems 213 CHAPTER12 SYSTEMANALYSIS—LATERAL,TEMPERATURE,SHRINKAGE, ANDPRESTRESSLOADS 215 12.1 LateralLoadAnalysis 215 12.1.1 WindLoads 215 12.1.2 SeismicLoadAnalysis 216 12.2 Temperature,Shrinkage,andPrestress 221 12.2.1 General 221 12.2.2 Prestressing 221 CONTENTS vii 12.2.3 TemperatureEffects 222 12.2.4 ShrinkageandCreep 225 12.3 ClosingRemarks 225 References 225 PARTIII CONCRETEBRIDGES CHAPTER13 REINFORCEDCONCRETEMATERIALRESPONSEANDPROPERTIES 229 13.1 Introduction 229 13.2 ReinforcedandPrestressedConcreteMaterialResponse 229 13.3 ConstituentsofFreshConcrete 230 13.4 PropertiesofHardenedConcrete 232 13.4.1 Short-TermPropertiesofConcrete 232 13.4.2 Long-TermPropertiesofConcrete 238 13.5 PropertiesofSteelReinforcement 242 13.5.1 NonprestressedSteelReinforcement 242 13.5.2 PrestressingSteel 244 References 246 Problems 246 CHAPTER14 BEHAVIOROFREINFORCEDCONCRETEMEMBERS 249 14.1 LimitStates 249 14.1.1 ServiceLimitState 249 14.1.2 FatigueLimitState 252 14.1.3 StrengthLimitState 255 14.1.4 ExtremeEventLimitState 256 14.2 FlexuralStrengthofReinforcedConcreteMembers 257 14.2.1 DepthtoNeutralAxisforBeamswithBondedTendons 257 14.2.2 DepthtoNeutralAxisforBeamswithUnbondedTendons 259 14.2.3 NominalFlexuralStrength 260 14.2.4 Ductility,MaximumTensileReinforcement, andResistanceFactorAdjustment 262 14.2.5 MinimumTensileReinforcement 264 14.2.6 LossofPrestress 265 14.3 ShearStrengthofReinforcedConcreteMembers 270 14.3.1 Variable-AngleTrussModel 271 14.3.2 ModifiedCompressionFieldTheory 272 14.3.3 ShearDesignUsingModifiedCompressionFieldTheory 278 14.4 ClosingRemarks 289 References 289 Problems 290 CHAPTER15 CONCRETEBARRIERSTRENGTHANDDECKDESIGN 291 15.1 ConcreteBarrierStrength 291 15.1.1 StrengthofUniformThicknessBarrierWall 291 15.1.2 StrengthofVariableThicknessBarrierWall 293 15.1.3 CrashTestingofBarriers 293 15.2 ConcreteDeckDesign 293 References 311 Problems 311 viii CONTENTS CHAPTER16 CONCRETEDESIGNEXAMPLES 313 16.1 SolidSlabBridgeDesign 313 16.2 T-BeamBridgeDesign 321 16.3 PrestressedGirderBridge 340 References 359 PARTIV STEELBRIDGES CHAPTER17 STEELBRIDGES 363 17.1 Introduction 363 17.2 MaterialProperties 363 17.2.1 SteelmakingProcess:Traditional 363 17.2.2 SteelmakingProcess:MiniMills 365 17.2.3 SteelmakingProcess:EnvironmentalConsiderations 365 17.2.4 ProductionofFinishedProducts 365 17.2.5 ResidualStresses 365 17.2.6 HeatTreatments 366 17.2.7 ClassificationofStructuralSteels 366 17.2.8 EffectsofRepeatedStress(Fatigue) 370 17.2.9 BrittleFractureConsiderations 372 17.3 Summary 374 References 374 Problem 375 CHAPTER18 LIMITSTATESANDGENERALREQUIREMENTS 377 18.1 LimitStates 377 18.1.1 ServiceLimitState 377 18.1.2 FatigueandFractureLimitState 378 18.1.3 StrengthLimitStates 389 18.1.4 ExtremeEventLimitState 389 18.2 GeneralDesignRequirements 390 18.2.1 EffectiveLengthofSpan 390 18.2.2 Dead-LoadCamber 390 18.2.3 MinimumThicknessofSteel 390 18.2.4 DiaphragmsandCrossFrames 390 18.2.5 LateralBracing 390 References 391 Problems 391 CHAPTER19 STEELCOMPONENTRESISTANCE 393 19.1 TensileMembers 393 19.1.1 TypesofConnections 393 19.1.2 TensileResistance—Specifications 393 19.1.3 StrengthofConnectionsforTensionMembers 396 19.2 CompressionMembers 396 19.2.1 ColumnStability—Behavior 396 19.2.2 InelasticBuckling—Behavior 398 19.2.3 CompressiveResistance—Specifications 399 19.2.4 ConnectionsforCompressionMembers 401 CONTENTS ix 19.3 I-SectionsinFlexure 402 19.3.1 General 402 19.3.2 YieldMomentandPlasticMoment 405 19.3.3 StabilityRelatedtoFlexuralResistance 411 19.3.4 LimitStates 421 19.3.5 SummaryofI-SectionsinFlexure 424 19.3.6 ClosingRemarksonI-SectionsinFlexure 424 19.4 ShearResistanceofI-Sections 427 19.4.1 BeamActionShearResistance 427 19.4.2 TensionFieldActionShearResistance 429 19.4.3 CombinedShearResistance 431 19.4.4 ShearResistanceofUnstiffenedWebs 432 19.5 ShearConnectors 432 19.5.1 FatigueLimitStateforStudConnectors 433 19.5.2 StrengthLimitStateforStudConnectors 434 19.6 Stiffeners 438 19.6.1 TransverseIntermediateStiffeners 438 19.6.2 BearingStiffeners 440 References 441 Problems 442 CHAPTER20 STEELDESIGNEXAMPLES 443 20.1 NoncompositeRolledSteelBeamBridge 443 20.2 CompositeRolledSteelBeamBridge 452 20.3 Multiple-SpanCompositeSteelPlateGirderBeamBridge 461 References 499 APPENDIXA INFLUENCEFUNCTIONSFORDECKANALYSIS 501 APPENDIXB TRANSVERSEDECKMOMENTSPERAASHTOAPPENDIXA4 503 APPENDIXC METALREINFORCEMENTINFORMATION 505 APPENDIXD REFINEDESTIMATEOFTIME-DEPENDENTLOSSES 507 References 512 APPENDIXE NCHRP12-33PROJECTTEAM 513 TaskGroups 513 APPENDIXF LIVE-LOADDISTRIBUTION—RIGIDMETHOD 515 INDEX 517 PREFACE Theobjectiveofthethirdeditionisthesameasthefirsttwo civilengineers. Soover dinneranda majorleague baseball editions,thatis,toprovidethestudentorpractitioneramean- game,theyrealizedtheycouldbetheonestodothewriting. ingfulintroductiontothedesignofmedium-andshort-span Pucketttookhis sabbatical with Barkerat VirginiaTech in girderbridges.However,themannerinwhichthematerialis 1993,theywrotetrialchapters,preparedaproposalthatwas presented has changed. Instead of the eightchapters of the acceptedbyJohnWiley&Sons,andthefirsteditionwithten secondedition,thecontenthasbeenspreadoutovertwenty chapterswaspublishedin1997. shorterchapters.Thisorganizationshouldleadtoeasierread- Itwasnotlongbeforethemetricsystemrequirementwas ingandsimplerorganizationofclassroomassignments. droppedandthehighwaybridgedesignersneededatextbook To help understand how these changes have come about, writteninU.S. CustomaryUnits.Therefore, itbecame nec- itisinformativetoseehowtheprocessallstarted.Itwasin essary tomake revisionsandtoprepare asecond editionof August 1990 that the two authors were at an International thebook.Besidestheunitschange,theLRFDspecifications ConferenceonShortandMediumSpanBridgesinToronto, wereintheirthirdeditionandthetextbookneededtobeup- Canada, where both were presenting papers. They had of- dated.Asnewmaterialwasadded,thenumberofpageswas ten met at these bridgeconferences and were familiarwith deemed too large and two chapters were dropped—Wood each other’s work—Puckett’son analysis and software de- BridgesandSubstructureDesign.Thesetwotopicsarefound velopment and Barker’s fundamental application of LRFD onlyinthemetricsystemunitsofthefirstedition. togeotechnical materials. Bothwere classroom teachers in The remaining eight chapters of the second edition have structuralengineering. beendividedintofourparts:GeneralAspectsofBridgeDe- Atthetime,anumberofmajorchangesweretakingplace sign (Chapters 1–7), Loads and Analysis (Chapters 8–12), inthe design ofhighwaybridges. Philosophicallythe most Concrete Bridges (Chapters 13–16), and Steel Bridges dramatic was the change from a deterministic (allowable (Chapters17–20).Anotherchangeinthelayoutofthethird stress)designapproachtoaprobabilistic(limitstate)design editionistheadditionofaninsertofmainlycolorbridgepho- concepts.Theotherbigchangewasagovernmentedictthat tos.These photoshavebeenselectedtoillustratebridgesof highwaybridgesthatwere builtwithfederal dollars had to historicalsignificance;the ones mostaesthetically pleasing beconstructedanddesignedinthemetricsystemstartingin thataremostbeautifulintheirsurroundings,andnoteworthy 1997. asthelongest,tallest,orhighestbridgesoftheirtype. The timing was right for a comprehensive textbook on We suggest that a first course in bridges be based on the design of highway bridges. The American Association Chapters1–7withChapters5,6,and7compulsoryreading. of State Highway and TransportationOfficials (AASHTO) Loads and analysis should followwith required reading in were in the midst of a complete rewriting of their Bridge Chapter8andselectedportionsofChapter9and10depend- Design Specifications in a LRFD format. Finite-element inguponthestudents’backgroundandinstructor’sinterest. analysis tools had matured, truck loads were better under- Designcan be addressed witheitherthechapters oncon- stood through weigh-in-motion studies, material behavior crete (Chapters13–16)or thoseonsteel (Chapters17–20). was being unified for prestressed and non-prestressed Instructor guidance is required to lead the student through concrete by the American Concrete Institute (ACI), post- these chapters and to address the topics of most interest. bucklingstrengthof plate girder webs and fatiguestrength For example, concrete bridges could be addressed with ofwelddetailswerebetterunderstood. nonprestressed bridges which would simplify the topic. Thetwoprofessorsdecidedthatsomeoneneededtowritea However, teaching prestressed concrete within a bridge textbooktopresentthesechangestostudentsandpracticing context could be an excellent way for students to gain xi

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