Draft

• 1 INTRODUCTION Contents
  
  
  • 1.1 ScienceandTechnology
  
  
  • 1.2 StructuralEngineering.
  
  
  • 1.3 StructuresandtheirSurroundings
  
  
  • 1.4 Architecture& Engineering
  
  
  • 1.5 ArchitecturalDesignProcess
  
  
  • 1.6 ArchitecturalDesign
  
  
  • 1.7 StructuralAnalysis.
  
  
  • 1.8 StructuralDesign.
  
  
  • 1.9 LoadTransferMechanisms
  
  
  • 1.10 StructureTypes
  
  
  • 1.11 StructuralEngineeringCourses
  
  
  • 1.12 References.
  
  
  
  


• 2 LOADS
  
  
  • 2.1 Introduction.
  
  
  • 2.2 VerticalLoads.
    
    
    • 2.2.1 DeadLoad
    
    
    • 2.2.2 Live Loads
    
    
    • E 2-1 Live LoadReduction.
    
    
    • 2.2.3 Snow.
    
    
    
    
  
  
  • 2.3 LateralLoads
    
    
    • 2.3.1 Wind
    
    
    • E 2-2 WindLoad
    
    
    • 2.3.2 Earthquakes.
    
    
    • E 2-3 Earthquake Loadona Frame
    
    
    • E 2-4 Earthquake Loadona TallBuilding,(Schueller1996)
    
    
    
    
  
  
  • 2.4 OtherLoads.
    
    
    • 2.4.1 HydrostaticandEarth.
    
    
    • E 2-5 HydrostaticLoad.
    
    
    • 2.4.2 Thermal.
    
    
    • E 2-6 ThermalExpansion/Stress(Schueller1996)
    
    
    • 2.4.3 BridgeLoads
    
    
    • 2.4.4 ImpactLoad
    
    
    
    
  
  
  • 2.5 OtherImportant Considerations
    
    
    • 2.5.1 LoadCombinations.
    
    
    • 2.5.2 LoadPlacement
    
    
    
    
  
  
  
  


• CONTENTS Draft
  
  
  • 5.4 Flexure
    
    
    • 5.4.1 BasicKinematicAssumption;Curvature.
    
    
    • 5.4.2 Stress-StrainRelations.
    
    
    • 5.4.3 InternalEquilibrium;SectionProperties.
      
      
      • 5.4.3.1 Fx= 0; NeutralAxis.
      
      
      • 5.4.3.2 M= 0; Moment of Inertia
      
      
      
      
    
    
    • 5.4.4 BeamFormula
    
    
    • E 5-10DesignExample
    
    
    • 5.4.5 ApproximateAnalysis
    
    
    • E 5-11ApproximateAnalysisof a StaticallyIndeterminatebeam
    
    
    
    
  
  
  
  


• 6 CaseStudyII: GEORGEWASHINGTONBRIDGE
  
  
  • 6.1 Theory.
  
  
  • 6.2 TheCaseStudy.
    
    
    • 6.2.1 Geometry
    
    
    • 6.2.2 Loads
    
    
    • 6.2.3 CableForces
    
    
    • 6.2.4 Reactions
    
    
    
    
  
  
  
  


• 7 A BRIEFHISTORY OFSTRUCTURALARCHITECTURE
  
  
  • 7.1 BeforetheGreeks.
  
  
  • 7.2 Greeks.
  
  
  • 7.3 Romans
  
  
  • 7.4 TheMedieval Period (477-1492).
  
  
  • 7.5 TheRenaissance
    
    
    • 7.5.1 LeonardodaVinci1452-1519
    
    
    • 7.5.2 Brunelleschi 1377-1446.
    
    
    • 7.5.3 Alberti1404-1472
    
    
    • 7.5.4 Palladio1508-1580
    
    
    • 7.5.5 Stevin
    
    
    • 7.5.6 Galileo1564-1642.
    
    
    
    
  
  
  • 7.6 PreModernPeriod, Seventeenth Century
    
    
    • 7.6.1 Hooke, 1635-1703.
    
    
    • 7.6.2 Newton,1642-1727.
    
    
    • 7.6.3 BernoulliFamily1654-1782
    
    
    • 7.6.4 Euler1707-1783
    
    
    
    
  
  
  • 7.7 Thepre-ModernPeriod; Coulomb andNavier
  
  
  • 7.8 TheModernPeriod (1857-Present)
    
    
    • 7.8.1 Structures/Mechanics
    
    
    • 7.8.2 EielTower.
    
    
    • 7.8.3 Sullivan1856-1924
    
    
    • 7.8.4 Roebling,1806-1869
    
    
    • 7.8.5 Maillart
    
    
    • 7.8.6 Nervi,1891-1979
    
    
    • 7.8.7 Khan
    
    
    • 7.8.8 et al..
    
    
    
    
  
  
  
  


• CONTENTS Draft


• 12 PRESTRESSEDCONCRETE
  
  
  • 12.1 Introduction.
    
    
    • 12.1.1 Materials
    
    
    • 12.1.2 PrestressingForces.
    
    
    • 12.1.3 Assumptions
    
    
    • 12.1.4 TendonConguration
    
    
    • 12.1.5 Equivalent Load
    
    
    • 12.1.6 LoadDeformation
    
    
    
    
  
  
  • 12.2 FlexuralStresses
    
    
    • E 12-1PrestressedConcreteI Beam
    
    
    
    
  
  
  • 12.3 CaseStudy:Walnut LaneBridge
    
    
    • 12.3.1 Cross-SectionProperties.
    
    
    • 12.3.2 Prestressing.
    
    
    • 12.3.3 Loads
    
    
    • 12.3.4 FlexuralStresses
    
    
    
    
  
  
  
  


• 13 ARCHESandCURVEDSTRUCTURES
  
  
  • 13.1 Arches
    
    
    • 13.1.1 StaticallyDeterminate.
    
    
    • E 13-1ThreeHingedArch, Point Loads.(Gerstle1974)
    
    
    • E 13-2Semi-CircularArch, (Gerstle1974)
    
    
    • 13.1.2 StaticallyIndeterminate
    
    
    • E 13-3StaticallyIndeterminateArch, (Kinney1957)
    
    
    
    
  
  
  • 13.2 CurvedSpaceStructures.
    
    
    • E 13-4Semi-CircularBox Girder,(Gerstle1974)
    
    
    • 13.2.1 Theory
      
      
      • 13.2.1.1 Geometry.
      
      
      • 13.2.1.2 Equilibrium.
      
      
      
      
    
    
    • E 13-5InternalForcesin anHelicoidalCantileveredGirder,(Gerstle1974)
    
    
    
    
  
  
  
  


• 14 BUILDINGSTRUCTURES
  
  
  • 14.1 Introduction.
    
    
    • 14.1.1 BeamColumnConnections
    
    
    • 14.1.2 Behaviorof SimpleFrames
    
    
    • 14.1.3 Eccentricity of AppliedLoads.
    
    
    
    
  
  
  • 14.2 BuildingsStructures
    
    
    • 14.2.1 WallSubsystems
      
      
      • 14.2.1.1 Example:ConcreteShearWall.
      
      
      • 14.2.1.2 Example:TrussedShearWall
      
      
      
      
    
    
    • 14.2.2 ShaftSystems.
      
      
      • 14.2.2.1 Example:Tube Subsystem
      
      
      
      
    
    
    • 14.2.3 RigidFrames
    
    
    
    
  
  
  • 14.3 ApproximateAnalysisof Buildings
    
    
    • 14.3.1 VerticalLoads
    
    
    • 14.3.2 HorizontalLoads
      
      
      • 14.3.2.1 PortalMethod
      
      
      
      
    
    
    • E 14-1ApproximateAnalysisof a Framesubjectedto VerticalandHorizontalLoads
    
    
    
    
  
  
  • 14.4 LateralDe
    ections
  
  
  
  


• 1.1 Types of Forcesin StructuralElements (1D). List of Figures


• 1.2 BasicAspectsof CableSystems.


• 1.3 BasicAspectsof Arches


• 1.4 Types of Trusses


• 1.5 Variationsin PostandBeamsCongurations


• 1.6 Dierent BeamTypes


• 1.7 BasicFormsof Frames.


• 1.8 Examplesof AirSupportedStructures


• 1.9 BasicFormsof Shells.


• 2.1 Approximationof a Seriesof CloselySpacedLoads


• 2.2 Snow Mapof theUnitedStates,ubc


• 2.3 LoadsonProjectedDimensions


• 2.4 VerticalandNormalLoadsActingonInclinedSurfaces


• 2.5 WindMapof theUnitedStates,(UBC1995)


• 2.6 Eectof WindLoadonStructures(Schueller1996)


• 2.7 ApproximateDesignWindPressurep forOrdinaryWindForceResistingBuildingStructures


• 2.8 Vibrationsof a Building


• 2.9 SeismicZonesof theUnitedStates,(UBC1995)


• 2.10 EarthandHydrostaticLoadsonStructures


• 2.11 Truck Load


• 2.12 LoadPlacement to MaximizeMoments.


• 2.13 LoadLifeof a Structure,(LinandStotesbury1981)


• 2.14 Conceptof TributaryAreasforStructuralMember Loading


• 2.15 Oneor Two Way actionsin Slabs.


• 2.16 LoadTransferin R/CBuildings.


• 2.17 Two Way Actions.


• 2.18 Exampleof LoadTransfer


• 3.1 StressStrainCurves of ConcreteandSteel.


• 3.2 StandardRolledSections


• 3.3 ResidualStressesin RolledSections


• 3.4 ResidualStressesin WeldedSections


• 3.5 In
  uenceof ResidualStressonAverageStress-StrainCurve of a RolledSection


• 3.6 Concretemicrocracking


• 3.7 WandC sections.


• 3.8 prefabricatedSteelJoists


• LISTOFFIGURES Draft
  
  
  • 7.12 ExperimentalSetUpUsedby Hooke.
  
  
  • 7.13 IsaacNewton
  
  
  • 7.14 PhilosophiaeNaturalisPrincipiaMathematica, Cover Page
  
  
  • 7.15 LeonhardEuler
  
  
  • 7.16 Coulomb.
  
  
  • 7.17 Nervi'sPalazettoDelloSport
  
  
  • 8.1 MagazziniGenerali;OverallDimensions,(BillingtonandMark1983)
  
  
  • 8.2 MagazziniGenerali;SupportSystem,(BillingtonandMark1983).
  
  
  • 8.3 MagazziniGenerali;Loads(BillingtonandMark1983).
  
  
  • 8.4 MagazziniGenerali;BeamReactions,(BillingtonandMark1983).
  
  
  • 8.5 MagazziniGenerali;ShearandMoment Diagrams(BillingtonandMark1983).
  
  
  • 8.6 MagazziniGenerali;InternalMoment, (BillingtonandMark1983)
  
  
  • 8.7 MagazziniGenerali;SimilaritiesBetweenTheFrameShape anditsMoment Diagram,(BillingtonandMark1983)
  
  
  • 8.8 MagazziniGenerali;Equilibriumof Forcesat theBeamSupport,(BillingtonandMark1983)
  
  
  • 8.9 MagazziniGenerali;Eectof LateralSupports,(BillingtonandMark1983)
  
  
  • 9.1 LoadLifeof a Structure
  
  
  • 9.2 NormalizedGaussDistribution,andCumulative DistributionFunction.
  
  
  • 9.3 FrequencyDistributionsof LoadQandResistanceR.
  
  
  • 9.4 Denitionof Reliability Index.
  
  
  • 9.5 Probability of Failurein termsof
  
  
  • 10.1 LateralBracingforSteelBeams.
  
  
  • 10.2 Failureof Steelbeam;PlasticHinges
  
  
  • 10.3 Failureof Steelbeam;LocalBuckling
  
  
  • 10.4 Failureof Steelbeam;LateralTorsionalBuckling
  
  
  • 10.5 Stressdistributionat dierent stagesof loading
  
  
  • 10.6 Stress-straindiagramformoststructuralsteels
  
  
  • 10.7 NominalMoments forCompactandPartiallyCompactSections.
  
  
  • 11.1 FailureModesforR/CBeams.
  
  
  • 11.2 InternalEquilibriumin a R/CBeam
  
  
  • 11.3 CrackedSection,LimitState
  
  
  • 11.4 WhitneyStressBlock
  
  
  • 11.5 Reinforcement in ContinuousR/CBeams
  
  
  • 12.1 PretensionedPrestressedConcreteBeam,(Nilson1978)
  
  
  • 12.2 PosttensionedPrestressedConcreteBeam,(Nilson1978).
  
  
  • 12.3 7 WirePrestressingTendon
  
  
  • 12.4 Alternative SchemesforPrestressinga RectangularConcreteBeam,(Nilson1978)
  
  
  • 12.5 Determinationof Equivalent Loads
  
  
  • 12.6 Load-De
    ectionCurve andCorrespondingInternalFlexuralStressesfora TypicalPrestressedConcreteBeam,(Nilson1978)
  
  
  • 12.7 FlexuralStressDistributionfora BeamwithVariableEccentricity; MaximumMoment SectionandSupportSection,(Nilson1978)
  
  
  • 12.8 Walnut LaneBridge,PlanView.
  
  
  • 12.9 Walnut LaneBridge,CrossSection.
  
  
  • 13.1 Moment ResistingForcesin anArch or SuspensionSystemas Comparedto a Beam,(LinandStotesbury1981)
  
  
  • 13.2 Staticsof a Three-HingedArch, (LinandStotesbury1981)
  
  
  
  


• 1.1 StructuralEngineeringCoverageforArchitectsandEngineers. List of Tables


• 1.2 tab:secae.


• 2.1 UnitWeight of Materials.


• 2.2 Weights of BuildingMaterials.


• 2.3 AverageGrossDeadLoadin Buildings.


• 2.4 MinimumUniformlyDistributedLive Loads,(UBC1995)


• 2.5 WindVelocity Variationabove Ground.


• 2.6 CeCoecients forWindLoad,(UBC1995)


• 2.7 WindPressureCoecientsCq, (UBC1995)


• 2.8 ImportanceFactorsforWindandEarthquake Load,(UBC1995)


• 2.9 ApproximateDesignWindPressurepforOrdinaryWindForceResistingBuildingStructures


• 2.10 ZFactorsforDierent SeismicZones,ubc


• 2.11 SSiteCoecients forEarthquake Loading,(UBC1995)


• 2.12 PartialListofRW forVariousStructureSystems,(UBC1995)


• 2.13 Coecients of ThermalExpansion


• 3.1 Propertiesof MajorStructuralSteels.


• 3.2 Propertiesof ReinforcingBars.


• 3.3 JoistSeriesCharacteristics


• 3.4 JoistProperties.


• 5.1 Equationsof Equilibrium


• 5.2 StaticDeterminacyandStability of Trusses


• 5.3 SectionProperties


• 9.1 AllowableStressesforSteelandConcrete


• 9.2 Selected valuesforSteelandConcreteStructures.


• 9.3 StrengthReductionFactors,


• 14.1 ColumnsCombinedApproximateVerticalandHorizontalLoads


• 14.2 GirdersCombinedApproximateVerticalandHorizontalLoads