engr. thaung htut aung m. eng. asian institute of...
TRANSCRIPT
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Engr. Thaung Htut AungM. Eng. Asian Institute of Technology
Deputy Project Director, AIT Consulting
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• Selection of Structural systems– Load paths
– Materials
– Approximate sizing of members
– Primary mechanisms of inelastic behavior
• Review in terms of– Dynamic response parameters
• Mode shapes, natural periods, modal participating mass ratios
– Lateral load response parameters
• Base shear, base moment, lateral displacement, story drift, shear distribution between frame and shear walls
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• The Gravity Load Resisting System– The structural system (beams, slab, girders, columns, etc) that act
primarily to support the gravity or vertical loads
• The Lateral Load Resisting System– The structural system (columns, shear walls, bracing, etc) that primarily
acts to resist the lateral loads
• The Floor Diaphragm– The structural system that transfers lateral loads to the lateral load
resisting system and provides in-plane floor stiffness
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Source: NEHRP Seismic Design Technical Brief No. 3
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Purpose
“To transfer lateral loads applied at any location in
the structure down to the foundation level”
• Primary Lateral Loads
– Load generated by Wind Pressure
– Load generated due to Seismic Excitation
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• In low seismic zones, expected ground motion will not produce the same large inelastic response demands that would occur in high seismic zones.
• When the seismic force is small compared to the gravity load and wind load requirements, there is more reserve strength to resist seismic forces.
• Permit to use systems and configurations with lower energy dissipation capabilities in low seismic zones such as concrete intermediate and ordinary moment-resisting frames, and concrete braced frames.
• In high seismic zones, usually systems with high energy dissipation capacities are allowed.
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Parameter Value
Spectral acceleration (5% damped) at short periods (0.2 s) of horizontal ground motion (2500-yr. return period), SS
0.77 g
Spectral acceleration (5% damped) at long periods (1 s) of horizontal ground motion (2500-yr. return period), S1
0.31 g
Spectral acceleration (5% damped) at short periods (0.2 s) of horizontal ground motion (2500-yr. return period) adjusted for site class effects, SMS
0.91 g
Spectral acceleration (5% damped) at long periods (1 s) of horizontal ground motion (2500-yr. return period) adjusted for site class effects, SM1
0.88 g
Design spectral acceleration (5% damped) at short periods (0.2 s) of horizontal ground motion, SDS
0.60 g
Design spectral acceleration (5% damped) at short periods (1 s) of horizontal ground motio, SD1
0.58 g
Site class E
Short period site coefficient, Fa 1.176
Long period site coefficient, Fv 2.76
Response modification coefficient, R (Dual system, Shear wall + IMRF) 6.5
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0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0 1 2 3 4 5 6
Spe
ctra
l Acc
ele
rati
on
(g)
Natural Period (sec)
Design Basis Earthquake Level Response Spectrum
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Source: FEMA P695 / June 2009
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• To provide rational relationship between elastic response spectrum demand and the inelastic reduction capacities of a given structural system
• Represents potential capacity of a system for ductile response and energy dissipation
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• To provide rational relationship between elastic response spectrum demand and the inelastic reduction capacities of a given structural system.
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• Intended to reflect upper bound lateral strength of the structure and estimates the maximum forces in elements that are to remain non-yielding during the design basis ground motion.
• Represents– Ratio in lateral strength between minimum design seismic force level to
the point of nominal first significant yield (e.g., the formation of a plastic hinge in a moment frame) based on nominal material strengths.
– Material overstrength (difference between nominal and actual material strengths).
– System overstrength beyond the first significant yield point.
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Modeling
• An analysis model must capture the important aspects of behavior of the real structure. A useful model does this with sufficient accuracy, economy and detail for practical purpose.
• A model does not have to be exact, and never will be.
Computation
• Complex process, involving finite element theory, complex logic, and extremely large numerical computations.
• The numerical computations (given the analysis model, get the analysis results) will almost be done by computer.
Interpretation
• Challenge is to use the results to make design decisions for the actual structures.
• Develop a “feel” for structural behavior.
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• Materials– Nominal strength of materials shall be used in the determination of
modulus of elasticity.
• Section Stiffness– Cracked sections for seismic analysis
• Soil-Structure Interaction– Springs representing the effects of soil on the foundation system
– The vertical and horizontal spring stiffness determined based on the lateral and vertical sub-grade reaction modulus of the soil.
• Damping– to represent the reduction in dynamic (vibration) response due to
energy dissipation
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Load Case Analysis
To check the dynamic properties Modal analysis
Dead load Construction sequence analysis
Live load Linear static analysis
Seismic load Static/Response spectrum
Wind load Linear static analysis
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• To determine vibration modes of building
• To understand behavior of building in schematic design stage– Adequacy of lateral stiffness
– Minimize torsional response under earthquake
– Tune to structure to be dynamically regular
– Determine the principal directions of building
• Mass source– 100% of dead load and 25% of live load
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• The entire building is modeled as a single structure and loaded all at once which greatly conflicts with reality– Differential shortening of columns and shear walls causes
overestimation of moment and shear demands in beams connecting them
– Underestimation of design forces in transfer systems
• The real building is constructed in stages over a long time– Elastic deformations and long-term effects alter the geometry and the
loads distribution paths
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• The entire structure is modeled at once– Parts of structure are assigned into different groups
– Each group is added or removed from the overall model in specified sequence
– The loading can be done in sequence
– Each sequences uses the results from previous structure and loading history
• Nonlinear static analysis– Material and geometrical nonlinearity is optional
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• Behavior of building during an earthquake is vibration problem.
• But by internally generated inertial forces caused by vibration of building mass.
• Interrelationship of building behavior and seismic ground motion depends on building natural period as formulated in the so-called response spectrum. The response of the building having a broad range of period is summarized in single graph.
• A standard time-history ground motion is not defined in the code for the purpose of design.
• Most engineers use response spectrum analysis for the purpose of basic design.
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• Static methods specified in building codes are based on single mode response and appropriate for simple and regular structures
• Dynamic analysis should be used for complex buildings to determine significant response characteristics– Effects of structure’s dynamic characteristics on vertical distribution of
lateral forces
– Increase in dynamic loads due to torsional motions
– Influence of higher modes, resulting in an increase in story shear and deformations
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• Lack of definitions of the principal directions in code
• The direction of the base reaction of the mode shape associated with the fundamental frequency of the system is used to define the principal direction
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• Run modal analysis
• Extract base shear of mode 1
• Find angle between X and Y components of base shear
• Another direction is 90 degrees apart
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Fx = -1,041 kN
Fy = 846 kN
Angle = tan-1 (Fy/Fx)
= -39 deg.
X
Y
39 deg
Principal Minor Direction
Principal Major Direction
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• Seismic forces act in both principal directions of the building simultaneously
• But seismic effects in two directions are unlikely to reach their maxima simultaneously
• 100% of seismic forces in one principal direction combined with 30% of seismic forces in the orthogonal direction
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• Reduce the elastic response for design purpose, but design base shear is not less than elastic base shear divided by R
• Generally, design base shear is scaled to static lateral force base shear.
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Member Design Actions
Beam Flexure, Shear
Column PMM, Shear
Shear wall PMM, Shear
Coupling beam• Conventional reinforced• Diagonal reinforced
Flexure, ShearShear
Slab Flexure, Shear
Diaphragm Flexural, Shear, Axial
Mat foundation Flexure, Shear
Piles PMM, Shear
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• Assuming beam is yielding in flexure, beam end moments are set equal to probable moment strengths.
• Design shear is based on the probable moment to maintain the moment equilibrium.
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Strong-Column/Weak Beam Frame Requirement for SMRF
Source: NEHRP Seismic Design Technical Brief No. 1
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Beam Reinforcement Details Column Reinforcement Details
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Boundary Confinement in Shear Walls
Source: NEHRP Seismic Design Technical Brief No. 6
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Diagonal Reinforced Coupling Beam
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Collector
Source: NEHRP Seismic Design Technical Brief No. 3
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Source: PEER/ATC 72-1
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• PEER/ATC 72-1 mentions in details about podium diaphragm modeling and backstay effects.
– Case 1: Upper bound backstay effect
• Provide upper-bound estimate of forces in the back stay load path and lower-bound estimate of forces in foundation below the tower.
– Case 2: Lower bound backstay effect
• Provide lower-bound estimate of forces in the back stay load path and upper-bound estimate of forces in foundation below the tower.
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Shear Reinforcement in Mat
Source: NEHRP Seismic Design Technical Brief No. 7
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