Post on 27-Sep-2020
Presentedon[Date]by[Author’sName](EdittheMasterSlide tochangethistext)
BigBuzzonTallWood
TheWho,What,When,Where,WhyandHowonHigh-riseMassTimberBuildings
PresentedbyWoodWorks forNon-residentialConstruction
“TheWoodProductsCouncil” isaRegisteredProviderwithTheAmericanInstituteofArchitectsContinuingEducationSystems(AIA/CES),Provider#G516.
Credit(s)earnedoncompletionofthiscoursewillbereportedtoAIACESforAIAmembers.CertificatesofCompletionforbothAIAmembersandnon-AIAmembersareavailableuponrequest.
ThiscourseisregisteredwithAIACES forcontinuingprofessionaleducation.Assuch,itdoesnotincludecontentthatmaybedeemedorconstruedtobeanapprovalorendorsementbytheAIAofanymaterialofconstructionoranymethodormannerofhandling,using,distributing,ordealinginanymaterialorproduct.__________________________________
Questionsrelatedtospecificmaterials,methods,andserviceswillbeaddressedattheconclusionofthispresentation.
AIAContinuingEducation
CourseDescription
Asexamplesofsuccessfultallwoodbuildingsproliferateworldwide,manyU.S.architectsareconsideringhowtoleveragewood’ssustainabilityandotheradvantagesthroughtheirowntallwooddesigns.Intendedasapracticaloverviewforthoseinterestedinpursuingwood’spotential,thispresentationwillcoverthe“who,what,whenandwhere”ofmasstimberbuildings.Followingabriefdiscussionofhistoryandmotivators,existingtallwoodprojectswillbeusedtoillustratemasstimberandhybridcomponents,high-risestructuraldesignconcepts,andlessonslearnedregardingcostandschedule.Topicswillalsoincludebuildingcodeavenuesforalternatedesigns,andavailableresourcesandsupport.
LearningObjectives
1. Reviewthehistoricalcontextfortalltimberstructures,andconsidertheconstructionandsustainabilitymotivatorsdrivingmodernexamples.
2. Discoverthevarietyofstructuralcomponentsusedinmasstimberandhybridprojectsand,throughaseriesofstudies,learnhowtheycanbeassembledintosystemsthataddressrealarchitecturalandstructuraldesignconstraints.
3. Basedonsurveysdoneonbuiltprojects,understandwhatlessonshavebeenlearnedandpotentialimpactstocostandschedule.
4. Realizetheconstructionandsustainabilitymotivatorsforpursuitoftallwoodstructuresandbecomefamiliarwithavailabledesignguidanceandresearch.
Outline
• Who,What,WhenandWhere• HistoricExamples• ModernBuiltProjects
• Why• Motivators• StakeholderSupport
• How• OverviewofSolidWoodSystems• High-riseStructuralDesignConcepts• AvenuesforAlternateDesign
IsTallWoodaNewConcept?
1 0 5 6 YINGXIANPAGODA,SHANXICHINA
1 3 T H C E N T U R Y HEDDALSTAVECHURCH,NOTODDEN,NORWAY
1 6 T H C E N T U R Y KIZHIPOGOST,KIZHI,RUSSIA
Size:7Stories(atstreet)9stories(atwaterfront)Over175,000sf
1 9 0 5T H E L A N D I N G , VANCOUVER,CANADA Source:AStudyonHistoricalTall-WoodBuildingsinTorontoandVancouver
1 8 8 9 - 1 9 2 0TORONTOCARPETFACTORY,TORONTO,CANADA
PROJECTSIZE:8buildingsCoverscityblock312Ksftotal
LARGESTBLDG:6stories190Ksf
THEN:CarpetFactory
NOW:OfficeComplex
Source:AStudyonHistoricalTall-WoodBuildingsinTorontoandVancouver
ButlerBrothersBuilding,MinneapolisMN
1 9 0 6BUT LER SQUARE ,MINNEAPOLIS,MM
1 9 0 6BUT LER SQUARE ,MINNEAPOLIS,MM
Size:9Stories500,000sf
Then:Warehouse
Now:OfficeaboveRetailbelow
TallWoodProjects
2008 2009 2010 2011 2012
2013 2013 2014 2015
TallWoodProjects
GERMANY SWEDEN UK GERMANY AUSTRIA
ITALY SWITZERLAND CANADA NORWAY
TallWoodProjects
7Stories 8Stories/78 ft 8Stories/87ft 8Stories/70ft 8Stories/88ft
2 0 0 8E3
BERLIN,GERMANY7STORIES13.6KSQ.FT.
Source:SurveyofInternationalTallWoodBuildings,2014Architect:KadenKlingbell ArchitektenEngineer:BoisConsultNatterer
2 0 0 9LIMNOLOGEN
VAXJO,SWEDEN4BUILDINGS8STORIES78FT
115KSQ.FT.
Source:SurveyofInternationalTallWoodBuildings,2014Architect:Arkitekbolaget,Kronoberg,MartinsonsEngineer:Martinsons Byggsystem KB
2 0 0 9STADTHAUSLONDON,UK9STORIES
Architect:WaughThisleton ArchitectsPhotoCredit:
2 0 1 0BRIDPORT HOUSE , HACKNEYLONDON,UK
8STORIES87FT~17KSF
ARCHITECT:Karakusevic CarsonENGINEER:PeterBrettAssociates
2 0 1 1H O L Z 8
BADAIBLING,GERMANY8STORIES70FT
~19KSQ.FT.
Source:SurveyofInternationalTallWoodBuildings,2014ARCHITECT:Shankula ArchitektenENGINEER:Bauart Konstruktions GmbH&Co
2 0 1 2L C T 1
DORNBIRN,AUSTRIA8STORIES88.5FT
~17SQ.FT.ARCHITECT:HermannKaufmannENGINEER:Merz Kley Partner
2 0 1 3CENNIDECAMBIAMENTO
M I L A N , I T A L Y9STORIES92FT
~183KSQ.FT.
Source:SurveyofInternationalTallWoodBuildings,2014ARCHITECT:Shankula ArchitektenENGINEER:Bauart Konstruktions GmbH&Co
2 0 1 3TAMEDIA
HEADQUARTERS,ZURICH,SWITZERLAND
6STORIES75FT
~96KSQ.FT.Source:SurveyofInternationalTallWoodBuildings,2014
ARCHITECT:ShigeruBan&IttenBrechbuhlENGINEER:CreationHolz GmbH
2 0 1 3FORTE’
MELBOURNEAUSTRALIA10STORIES
DESIGNBUILDER:LendLeasePhotoCredit:LendLease
2 0 1 4WOODINNOVATIONDESIGNCENTRE,
PRINCE GEORGE , CANADA6STORIES96FT~51KSF
ARCHITECT:MichaelGreenArchitectureENGINEER:EquilibriumEngineeringPHOTOCREDIT:Ema Peters
2 0 1 5TREETAPARTMENTS,BERGEN,NORWAY
14STORIES173FT
~63KSQ.FT.
Source:TowardTallerWoodBuildingsSymposium2014ARCHITECT:ArtecENGINEER:Sweco
TallWoodProjects
?
S T A R T E D J U L Y 2 0 1 5D A L S T O N L A N ELONDON,UK ENGINEER:Romboll UKLimited
ARCHITECT:ActonOstry ArchitectsENGINEER:Fast+Epp
S T A R T E D N O V E M B E R 2 0 1 5B R O C K C O M M O N SBRITISHCOLUMBIA,CANADA
2 0 1 5REDSTONEARESENALCANDLEWOODSUITESHOTELHUNTSVILLE,AL DESIGN/BUILD:LendLease
U N D E R C O N S T R U C T I O NT 3 O F F I C EMINNEAPOLIS,MN
ARCHITECT:MichaelGreen/DLRGroupENGINEER:MagnussonKlemencic Associates
USDASupport– TallWoodCompetition• Originallya$2millionProjectCompetition• Somanyhighqualitysubmissionsresultedin2projects
awarded$1.5millioneach• FundingprovidedbyjointeffortbetweenSoftwood
LumberBoard,Binational SoftwoodLumberCouncilandUSDA
Source:reThinkWood
TallWoodWinner– Portland,OR
Framework:AnUrban+RuralEcology
· Location:PearlDistrict,Portland,OR· Height:130’/12stories· TotalBuildingArea: 90,000squarefeet· BuildingUses:Ground floor retail;5office
floors;5apartmentfloors;Rooftopamenity· Materials:Crosslaminatedtimberfloors
andlateralforceresistingsystem;Gluelaminatedbeamsandcolumns
· ProjectedCompletionDate:December2017
OWNER:BeneficialStateBancorpARCHITECT:LEVERArchitectureENGINEER:KPFF Source:reThinkWood
TallWoodWinner– NewYork,NY
475West18th:SettingtheStageforInnovation,EngineeringandArchitecture· Location:WestChelsea,Manhattan,NY· Height:120’/10stories· TotalBuildingArea: 50,000squarefeet· BuildingUses:Residentialcondominium
withground floorcommercialspace· Materials:Masstimbercolumns,
beams,shearwallsandfloors· ProjectedConstructionStartDate:Fall
2016
OWNER:Spiritos PropertiesARCHITECT:SHoP ArchitectsENGINEER:ARUP Source:reThinkWood
Outline
• Who,What,WhenandWhere• HistoricExamples• ModernCaseStudies
• Why• Motivators• GovernmentSupport
• How• OverviewofSolidWoodSystems• High-riseStructuralDesignConcepts• AvenuesforAlternateDesign
EvolutiontoHigh-rise
Source:reThinkWood
GlobalPopulationBoom
GlobalPopulation7.3billionnow
9.7billionby205033%increase
UrbanPopulation6.4billionby2050
62%increaseSource:UnitedNationsDepartment
ofEconomicandSocialAffairs
TrendsinUSPopulation
100%
90%
80%
70%
60%
50%
40%
30%
20%
10%
0%
1790 1800 1810 1820 1830 1840 1850 1860 1870 1880 1890 1900 1910 1920 1930 1940 1950 1960 1970 1980 1990 2000
In1920, the urbanand rural populationwere about equal
In2000, it is about80% urban
UrbanRural
Source:USCensusBureau
• ReducedEmbodiedCarbon• Minimalwasteproduction• HighlyEnergyEfficient
ImprovedSustainability
• DisasterResilient• GoodFireResistance• HighperformingAcoustics• StructuralFlexibility
ValuablePerformance
• ~75%lighterthanconcrete• Reducedconstructiontime• Pre-fabricatedandPrecise
ConstructionEfficiencies
BenefitsofWoodConstruction
StakeholdersSupportingTallWood
Designers Contractors
Government Industry
TallWoodMotivators– DesignTeam
Source:SurveyofInternationalTallWoodBuildings,2014
TallWoodMotivators– Owner/Developer
Source:SurveyofInternationalTallWoodBuildings,2014
TallWoodMotivators
Source:SurveyofInternationalTallWoodBuildings,2014
• MarketLeadership• CarbonReduction• EnergyPerformance
PrimaryMotivators
• StructuralPerformance- Lightweight
• SpeedofConstruction• Aesthetic
SecondaryMotivators
MarketLeadership
CarbonReduction
Stadhaus,London,UKArchitect:WaughThistletonArchitectsPhotocredit:WaughThistletonArchitects
Volume of wood used 950m3
Carbonsequesteredandstored(CO2e) 660metrictonsAvoidedgreenhousegases(CO2e) 225metrictonsTotal potential carbon benefit(CO2e) 915metrictonsCarbonsavingsfromthechoiceofwoodinthisonebuildingareequivalentto:
175passengervehiclesofftheroadforayear
Enough energy to operate ahome for 79 years
EnergyPerformance
0100200300400500
Wood Concrete Steel
ThermalResistance
*NormalizedComparisonSource:ThermalPerformanceofLightframedSystems,CWC
StructuralPerformance
Forte’,VictoriaHarbor,Melbourne,AustraliaArchitect:LendLease
SpeedofConstruction
Stadhaus,London,UKArchitect:WaughThistletonArchitectsPhotocredit:WaughThistletonArchitects http://www.youtube.com/watch?v=tJHeLyFASEI
SpeedofConstruction
Source:SurveyofInternationalTallWoodBuildings,2014
SpeedofConstruction- TimeisMoney
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
SpeedofConstruciton- TimeisMoney
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
Aesthetics
ARCHITECT:MichaelGreenArchitectureENGINEER:EquilibriumEngineeringPHOTOCREDIT:Ema PeterPhotography
GovernmentSupport
“Buildingstrongermarketsforinnovativewoodproductswill
supportsustainableforestry,reducegreenhousegasemissions, andputruralAmericaattheforefrontofan
emergingindustry”TomVilsack – AgricultureSecretary
DispellingMythsaboutWoodProductsUSForestLands
US/StateForestLand
Source:http://awc.org/publicpolicy/statefactsheets
USForestLand
ForestArea intheUnitedStates1630-2007
1045
759 760 756 761 744 738 747 749 751
0
200
400
600
800
1000
1200
1630 1907 1938 1953 1963 1977 1987 1997 2002 2007
Thou
sand
Acres
Source:USDA-ForestService,GeneralTechnicalReportWO-78.(2009).
103.7 128.3 163 190 214.3 217.6148.5
174.1223.4
244.6256.4 268
363.7363.2
346.7347
365.1 370.5
0
100
200
300
400
500
600
700
800
900
1953 1963 1977 1987 1997 2002
Inventory(billioncubicfeet)
USTimberVolume onTimberLand
North South West
USForestLand
Source:USDA-ForestService,USForestResourceFactsandHistoricalTrendsFS-801.(2004).
WesternUSWildFireEpidemic
Fire readiness and suppression has gonefrom 20% oftheFS budget in 2001 to 52% in 2015. It is not
uncommon tospend $1 million per hour fighting fires.
Source:USForestService–http://www.fs.fed.us/about-agency/budget-performance/cost-fire-operations
AverageUSAcreageBurnedinWildFire
Source:USForestService–http://www.fs.fed.us/about-agency/budget-performance/cost-fire-operations
ShiftinForestServiceStaffing
Source:USForestService–http://www.fs.fed.us/about-agency/budget-performance/cost-fire-operations
InsectandDiseaseRiskMap
Inter-MountainWestInsectDevastation
Source:IDS- InsectandDiseaseSurveyUSDAForestHealthProtection
WhyUSDAChampionsTallWood
“Buildingstrongermarketsforinnovativewoodproductswill
supportsustainableforestry,reducegreenhousegasemissions, andputruralAmericaattheforefrontofan
emergingindustry”TomVilsack – AgricultureSecretary
USContributesHighlytoWorldEmissions
NetCarbonEmissionsLCAofMaterials:CarbonEmissions
Source:2006USEPADatabase
USEPA (2006)
USEPA (2006)
Material
Process Emissions (kg CO2e/ kg of
product)
Process Emissions Including Carbon
Storage within Material (kg CO2e/ kg of product)
Framing lumber 0.12* -1.68
Concrete 0.12 0.12
Concrete block 0.14 0.14
Brick 0.32 0.32
Medium density fiberboard (MDF) 0.32 -1.47
Recycled steel (avg recy content) 0.81 0.81
Glass (not including primary mfg.) 0.57 0.57
Cement (Portland, masonry) 0.97 0.97
Recycled aluminum (100% recycled content) 1.13 1.13
Vinyl -- 1.00
Steel (virgin) 2.55 2.55
Aluminum (virgin) 16.60 16.60
Carbon content of 49% assumed for wood. (measured values range from about 47-52%)
DramaticPotentialforChange
100%
TheTimberdesignhasamuchlowerCarbonFootprint
41% 77% 20%
StandardMaterials SustainableMaterials
Source:TimberTowerResearchProject,Skidmore,Owings andMerrill,May2013
WhyUSDAChampionsTallWood
“Buildingstrongermarketsforinnovativewoodproductswill
supportsustainableforestry,reducegreenhousegasemissions, andputruralAmericaattheforefrontofan
emergingindustry”TomVilsack – AgricultureSecretary
USEconomicImpact
US/StateEconomicImpact
Source:http://awc.org/publicpolicy/statefactsheets
Outline
• Who,What,WhenandWhere• HistoricExamples• ModernCaseStudies
• Why• Motivators• USDASupport
• How• OverviewofSolidWoodSystems• High-riseStructuralDesignConcepts• AvenuesforAlternateDesign
MassTimberBuildingSystems
SolidTimberPanelProducts
GlueLaminatedTimber
Considerations:
• Gappanelsfordimensionalchange
• NeedWoodStructuralPanelfordiaphragmcapacity
• Inconsistentlaminationgrades
• Manufacturerseverywhere
Graphic Credit: StructureCraft
Architect:Manasc IsaacEngineer:Fast+Epp
MOSAICCENTREENMONTON,ABCANADA
PhotoCredit:AndreasSauter,TimClayPhotography
SAUTERTIMBERPRODUCTIONFACILITYROCKWOOD,TNUSA
SolidTimberPanelProducts
Considerations:• Spanusuallygovernedby
vibrations• Dimensionallystable• Recognizedby2015codes
andstandards• Highinplaneshear
capacity• DualDirectionalspan
capabilitiesCrossLaminatedTimber
Graphic Credit: StructureCraft
Source:SurveyofInternationalTallWoodBuildings,2014ARCHITECT:Shankula ArchitektenENGINEER:Bauart Konstruktions GmbH&Co
http://www.cbbt.se/website3/1.0.3.0/28/FULLTEXT01.pdfArchitect:Arkitekbolaget,Kronoberg,MartinsonsEngineer:Martinsons Byggsystem KB
ARCHITECT:Karakusevic CarsonENGINEER:PeterBrettAssociates
SolidTimberPanelProducts
Considerations:• Requiresaccommodation
fordimensionalchange• Needwoodstructural
panelfordiaphragmcapacity
• Recognizedasaheavytimberfloorsystem
• LonghistoryofuseNailLaminatedTimber
Graphic Credit: StructureCraft
http://www.brettstapel.org/Brettstapel/What_is_it.html
Architect:KadenKlingbell ArchitektenEngineer:BoisConsultNatterer Source:SurveyofInternationalTallWoodBuildings,2014
SamuelBridghouse Elemenary School,RichmondBC,CanadaDesing Team:Perkins+WillCanada,Fast+EppPhotoCredit:StephanPasche
Architect:MillerHullPartnershipLivingBuildingChallengeBuilding
Completed2013
Architect:ProsceniumArchitectureandInteriorsMountainEquipmentCo-opHeadOffice
SolidTimberPanelProducts
Considerations:• Establisheddesign
properties• Speciallyorderedbut
multipledomesticmanufacturers
• Horizontalapplicationsdon’ttakeadvantageofthestrengthdirection
• Relativelydimensionallystable
• LimitedThicknesses
LaminatedVeneerLumber
Graphic Credit: StructureCraft
Metropol Parasol,Seville,SpainDesignTeam:J.MayerH.Architects,ARUPConsultingEngineersPhotoCredit:ARUP
SolidTimberPanelProducts
Considerations:
• Establisheddesignproperties
• Speciallyorderedbutmultipledomesticmanufacturers
• Relativelydimensionallystable
LaminatedStrandLumber
Graphic Credit: StructureCraft
UBCEarthScienceBuilding,Vancouver,CanadaARCHITECT:Perkins+WillENGINEER:Equilibrium
SolidTimberPanelProducts
Wood/ConcreteComposites
Graphic Credit: StructureCraft
Considerations:
• Connectionneedstobecarefullydesigned
• Difficulttoensuredesigncapacityifconcreteispouredonsite
• Detailneedstoaccommodatethemoistureconflictbetweenthematerials
UBCEarthScienceBuilding,Vancouver,CanadaARCHITECT:Perkins+WillENGINEER:EquilibriumPhotoCredit:Structurlam
ARCHITECT:HermannKaufmannENGINEER:Merz Kley PartnerPHOTOCREDIT:CREE
OtherMassTimberSystems
• FoldedPlates
• SolidWoodCore
• TimberBracedFrames
• TimberTrusses
• RockingWallSystems
• Post-TensionedFrames
• Wood/WoodCompositeSystems
OtherMassTimberSystems
Source:TowardTallerWoodBuildingsSymposium2014ARCHITECT:ArtecENGINEER:Sweco
Source:TowardTallerWoodBuildingsSymposium2014
ARCHITECT:MichaelGreenArchitectureENGINEER:EquilibriumEngineeringPHOTOCREDIT:
Source:SurveyofInternationalTallWoodBuildings,2014ARCHITECT:ShigeruBan&IttenBrechbuhlENGINEER:CreationHolz GmbH
High-riseStructuralDesignConcepts
LifeCycleTowerSystem
LifeCycleTowerby Cree GmbhEngineering:ArupArchitect:HermanKaufmann
www.creebyrhomberg.com
LifeCycleTower
• Designedtobemanufacturedregionally
• Upto30Stories
LifeCycleTower
HybridPanelizedFloorSystem
LifeCycleTower
FFTTSystem
TallWoodTheCaseforTallWoodBuildings(2012)Engineer:EricKarsh
EquilibriumArchitect:MichaelGreen
MichaelGreenArchitecture30StoriesinVancouver
mg-architecture.ca/portfolio/tallwood/
*(FFTT=Finding theForestThrough theTrees)
FFTTSystem
• DesignedforVancouver,BC• Upto30Stories
FFTTSystem - Layout1
Layout1:StructuralCore
MassTimberWalls
GlulamColumns
MassTimberFloors
FFTTSystem– Layout1
GlulamPerimeterBeams
SteelInteriorBeams
CLTFloorPanels
FFTTSystem– Layout1
CLTWalls
TypicalCoreWallSystem
SteelBeams
Strong-ColumnWeak-BeamSystem
FFTTSystem• BalloonFramed• OffsiteComponents• Tilt-Up
ConstructionSequence
FFTTSystem
StructuralSection3.6
ProposedTowerSolutions:3.4
SOMTimberTower
TimberTowerResearchProject
Skidmore,Owings,&Merrill LLPMay2013
www.som.com/publication/timber-tower-research-project
SOMTimberTower
Dewitt-ChestnutApartments:• DesignedbySOM• Chicago,IL• Completedin1966• 42Stories• 395ft tall+parapets• Concreteframebuilding
Source:SOMTimberTowerResearchProject,May2013
BenchmarkBuilding
SOMTimberTower
SOMTimberTower• Redesignofsamebuilding• CLTandGlu-Lamframingand
walls
Source:SOMTimberTowerResearchProject,May2013
PrototypeBuilding
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
SOMTimberTower
ConcreteJointedTimberFrame
SOMTimberTower
Material BenchmarkConcreteBuilding
PrototypeTimberTower
StructureWood - 0.80cuft/sfConcrete 0.98cuft/sf 0.25cuft/sfWood + Conc 0.98cuft/sf 1.05cuft/sfReinforcement 5.9psf 1.7psfStructural steel - 0.3psf
FoundationsConcrete 0.14cuft/sf 0.09cuft/sfReinforcement 0.1psf 0.1psf
DeadWeight 18lb/ft3 7lb/ft3
BillofMaterials*Volumesbasedon initialstudywithoutcompositefloors
40Storey OfficeBuildingoftheFuture
CEIArchitectureRJCConsultingEngineers2012
www.ceiarchitecture.com/project/naiop-design-competition-2012/
FlexibleOfficeShellandCore
150 ft x 90 ft open floor plan
HybridFloorandFramingHybridConcreteoverWoodFloor
PerimeterWoodTrusses
ConcreteCoreandColumns
UniqueFloorFraming
Courtesy CEI Architecture
UniqueFloorFraming
Courtesy CEI Architecture
Courtesy CEI Architecture
ModularDesign,SkyGardens
MassTimberHigh-RiseResearch
MuseumTowerApartments• DesignedbyPerkins+Will• LosAngeles,CA• 20Stories• 12unitsperfloor• 190’-1”overallheight• 8’-0”unitinteriorheight• Concreteframebuilding
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,
2015SEAOCConvention
BenchmarkBuilding
MassTimberHigh-RiseResearch
• Redesignofsamebuildingwithimprovements
• Beamlessfloor(twowayCLTslab)• Overallheightincreasedby4’-10”
PrototypeBuilding
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
MassTimberHigh-RiseResearch
CompositeFloorSystem
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
MassTimberHigh-RiseResearch
Additionallayersprovidedforvibrationanddeflectiondoubleas2hrfireresistance
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
MassTimberHigh-RiseResearch
BucklingRestrainedBracedFrame
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
FireResistanceforType1Equivalence
AlternateDesignPaths
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
Source:A
ctonOstryArchitectsINC
MassTimberHigh-RiseResearch
Source:MassTimberHigh-RiseResearchMuseumTowerinLosAngelesReimagined,2015SEAOCConvention
StructuralAlternates• Rigidvs.FlexibleDiaphragm• CalculatingDeflection
• CompositeAction• SeismicResistanceFactors• ConnectionPerformance
FireAlternates• TypeIequivalence• Non-Combustible
equivalence• Accommodationsfor
additionalfuelload• UtilizingCalculationswith
verificationofTesting
• ConnectionProtectionMethods
• Beltandsuspendersmentality
AlternateDesignPaths
Observations
- TimberHigh-Riseslookfeasible!- Prototypetimberdesignsnot100%wood.- Masstimberproductsakeyenabler
LessonsLearned
SurveyofInternationalTallWoodBuildings,2014
LessonsLearned
Commonfactorsofsuccess:• Commitmenttoawood
solutionearly• Businesscaseandbudgets
recognizedinvestmentininnovation
• Alignmentofvisionacrossentireteam
• EarlyengagementandbuyinfromAHJ
• Constructionteamandsupplierinvolvedearly
Source:SurveyofInternationalTallWoodBuildings, 2014
LessonsLearned
DesignandDetailing:• Additionaldesign
developmenttimewasgivenatthebeginningtoresolvedesigndetails
• AHJ’softenhaddirectinputindevelopmentofalternatedetails
• Duringconstruction,AHJ’ssawadditionalneedforspecialdetailing.
• Focusonsimplesolutions.Source:SurveyofInternationalTallWoodBuildings, 2014
LessonsLearned
AchievingApproval:• Testingformaterialsand
assemblieswascommon• Onsiteinspectionswere
crucial• Intwocases,fireprotection
strategiesweresimplifiedastheprojectprogressed.
Source:SurveyofInternationalTallWoodBuildings, 2014
LessonsLearned
Source:SurveyofInternationalTallWoodBuildings, 2014
LessonsLearned
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
LessonsLearned
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
LessonsLearned
Source:SolidWoodConstruction: ProcessPracticePerformance,Smith,GriffinRice,2015
LessonsLearned
Conclusion
-DickDusseldorp (LendLeaseFounder1973)
Questions?ThisconcludesTheAmericanInstituteofArchitectsContinuingEducationSystemsCourse
WoodWorks –WoodProductsCouncilwww.woodworks.org