1 Design of Seismic Design of Seismic- Resistant Steel Resistant Steel Building Structures Building Structures Prepared by: Michael D. Engelhardt University of Texas at Austin with the support of the American Institute of Steel Construction. Version 1 - March 2007 2. Moment Resisting Frames Design of Seismic Design of Seismic-Resistant Resistant Steel Building Structures Steel Building Structures 1 - Introduction and Basic Principles 2 - Moment Resisting Frames 3 - Concentrically Braced Frames 4 - Eccentrically Braced Frames 5 - Buckling Restrained Braced Frames 6 - Special Plate Shear Walls 2 2 - Moment Resisting Frames Moment Resisting Frames • Definition and Basic Behavior of Moment Resisting Frames • Beam-to-Column Connections: Before and After Northridge • Panel-Zone Behavior • AISC Seismic Provisions for Special Moment Frames Moment Resisting Frames Moment Resisting Frames • Definition and Basic Behavior of Moment Resisting Frames • Beam-to-Column Connections: Before and After Northridge • Panel-Zone Behavior • AISC Seismic Provisions for Special Moment Frames MOMENT RESISTING FRAME (MRF) MOMENT RESISTING FRAME (MRF) Advantages • Architectural Versatility • High Ductility and Safety Disadvantages • Low Elastic Stiffness Beams and columns with moment resisting connections; resist lateral forces by flexure and shear in beams and columns Develop ductility by: - flexural yielding of beams - shear yielding of column panel zones - flexural yielding of columns Moment Resisting Frame
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1
Design of SeismicDesign of Seismic--Resistant Steel Resistant Steel
Building StructuresBuilding Structures
Prepared by:Michael D. EngelhardtUniversity of Texas at Austin
with the support of theAmerican Institute of Steel Construction.
Version 1 - March 2007
2. Moment Resisting Frames
Design of SeismicDesign of Seismic--Resistant Resistant Steel Building StructuresSteel Building Structures
1 - Introduction and Basic Principles
2 - Moment Resisting Frames
3 - Concentrically Braced Frames
4 - Eccentrically Braced Frames
5 - Buckling Restrained Braced Frames
6 - Special Plate Shear Walls
2 2 -- Moment Resisting FramesMoment Resisting Frames
• Definition and Basic Behavior of Moment Resisting
Frames
• Beam-to-Column Connections: Before and After
Northridge
• Panel-Zone Behavior
• AISC Seismic Provisions for Special Moment Frames
Moment Resisting FramesMoment Resisting Frames
• Definition and Basic Behavior of Moment Resisting
Frames
• Beam-to-Column Connections: Before and After
Northridge
• Panel-Zone Behavior
• AISC Seismic Provisions for Special Moment Frames
MOMENT RESISTING FRAME (MRF)MOMENT RESISTING FRAME (MRF)
Advantages
• Architectural Versatility
• High Ductility and Safety
Disadvantages
• Low Elastic Stiffness
Beams and columns with moment resisting connections; resist lateral forces by flexure and shear in beams and columns
Develop ductility by:
- flexural yielding of beams- shear yielding of column panel zones- flexural yielding of columns
Moment Resisting Frame
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Achieving Ductile Behavior:
• Choose frame elements ("fuses") that will yield in an earthquake, i.e, choose plastic hinge locations.
• Detail plastic hinge regions to sustain large inelastic rotations prior to the onset of fracture or instability.
• Design all other frame elements to be stronger than the plastic hinge regions.
Understand and Control Inelastic Behavior:
Behavior of an MRF Under Lateral Load: Internal Forces and Possible Plastic Hinge Locations
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M V
Possible Plastic Hinge LocationsPossible Plastic Hinge Locations
Beam(Flexural Yielding)
Panel Zone(Shear Yielding)
Column(Flexural & Axial
Yielding)
Plastic Hinges
In Beams
Plastic Hinges
In Column Panel Zones
Plastic Hinges
In Columns:
Potential for Soft
Story Collapse
Critical Detailing Area for Moment Resisting Frames:
Beam-to-Column Connections
Design Requirement:Frame must develop large ductilitywithout failure of beam-to-columnconnection.
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Moment Resisting FramesMoment Resisting Frames
• Definition and Basic Behavior of Moment Resisting
Frames
• Beam-to-Column Connections: Before and After
Northridge
• Panel-Zone Behavior
• AISC Seismic Provisions for Special Moment Frames
Moment Connection Design Practice Prior to1994 Northridge Earthquake:
Welded flange-bolted web moment connection widely used from early 1970’s to 1994
Pre-NorthridgeWelded Flange – Bolted Web Moment Connection
Backup Bar
Beam Flange
Column FlangeStiffener
Weld Access Hole
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Experimental Data on “Pre-Northridge” Moment Connection
Typical ExperimentalSetup:
Initial Tests on Large Scale Specimens:
• Tests conducted at UC Berkeley ~1970
• Tests on W18x50 and W24x76 beams
• Tests compared all-welded connections
with welded flange-bolted web connections
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All-Welded Detail
Welded Flange – Bolted Web Detail
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Observations from Initial UC Berkeley Tests:Observations from Initial UC Berkeley Tests:
• Large ductility developed by all-welded connections.
• Welded flange-bolted web connections developed less ductility, but were viewed as still acceptable.
Subsequent Test Programs:Subsequent Test Programs:
• Welded flange-bolted web connections showed highly variable performance.
• Typical failure modes: fracture at or near beam flange groove welds.
• A large number of laboratory tested connections did not develop adequate ductility in the beam prior to connection failure.
-5000
-4000
-3000
-2000
-1000
0
1000
2000
3000
4000
5000
-0.04 -0.03 -0.02 -0.01 0 0.01 0.02 0.03 0.04
Drift Angle (rad)
Be
nd
ing
Mo
me
nt
(kN
-m)
Brittle Fracture at Bottom
Flange Weld
Mp
Mp
Pre-Northridge Connection
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Summary of Testing Prior to Summary of Testing Prior to Northridge EarthquakeNorthridge Earthquake