aashto seismicsp.bridges.transportation.org/documents/2014 scobs... · 2014. 9. 15. · aashto...
TRANSCRIPT
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AASHTO SEISMIC T-3 Columbus, Ohio Meeting
2nd Edition Guide Specification
Applicability to Towers and Arches
June 23, 2014
David Goodyear & Hans Lund, TY Lin International
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Earthquake Resisting Systems
Ductile substructure w/elastic superstructure
Elastic substructure w/ductile superstructure
Steel superstructure only
Ductility only at pier x-frames
Elastic super and substructure only with fuse in between
(base isolation)
All referenced to beam bridge systems
Section 3.3
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Question
How should Designers apply the Guide Spec when
other lateral loads control?
Is the strong beam logic of the Guide Spec applicable
to all bridge types (other than beam bridges)?
Is CP design appropriate for towers with deep, flexible
foundations or long span arches?
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Historical Provisions
Past applications for towers and arches (LRFD, LFD) could be consistently applied within Code framework
Concepts for towers – weak beam systems (eg, shear links or portal frames)
Pseudo-elastic system based on elastic (unreduced) demands
ATC 49 Section 4.10 – specific criteria
VS 2nd Edition 4.11.1 – open commentary
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History for Ductility Based Design
Peak forces reduced for inelasticity/ductility
Inelastic displacement demand similar to elastic displacement
Elastic (unreduced) forces predicted by RSA
Displacement predicted by RSA
Fe
dy dp
Fy
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Why Pseudo-Elastic Seismic Design
Where inelasticity is not desirable
Limited or no damage criteria
Determinate systems where inelasticity may compromise
structural stability
Where elastic seismic design forces do not control
design
Where seismic over-strength (CP) exceeds reasonable
design earthquake demand level; design impractical
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In Practice
Longer period structures:
Lower seismic demand
Higher wind demand
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ASCE 7 Wind
Longer period yields higher wind
gust forces (opposite of EQ)
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Not all Designs controlled by EQ Any bridge with tall piers in a moderate seismic environ may be
controlled by wind
A bridge with heavy marine traffic may be controlled by vessel impact
Single pylons on deep foundations with flexible girders should not have hinges
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Application of capacity protection
concepts based on Guide Spec could
lead to irrational over-design
1.4Fw
Fw
Fe
FR
δp δy δover
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Current Limitations
Presumes all substructures governed by seismic
Prescriptive systems limit performance based design
approach
Weak column requirements limit rational application to
conventional beam bridges – not advised for towers or
arches
Result: We do not have a codified approach for many
major bridge design sites. We use ad-hoc project
criteria.
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Revision to Guide Spec
In Section 3.3
Pseudo-elastic system for
unreduced seismic
demands (historical
system with NL analysis)
Ductility detailing per CP
design rules
Add foundation design
provisions
Exception for structure
types
Clarify (or stipulate) TH
methods in lieu of 4.11.1,
with 1.2 factor on demand
displ for no liquefaction,
and 1.2 on motions if
liquefiable
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Current 4.11.1
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Provision and Commentary Proposed Provisions – end of 4.11.1:
Inelastic capacity protected design of columns (hereinafter representing towers, arch
ribs and related substructure elements) may be omitted for the following cases:
•Where non-seismic lateral load demands require essentially elastic design in
excess of the section requirements for an inelastic design for seismic loads;
•Where inelastic design of vertical support elements would result in geometric
instability of the structural system either during or after a seismic event;
•Where the flexibility of deep foundations will not develop the plastic moment
capacity of columns or towers designed for non-seismic loads that are in excess of
the elastic seismic demand levels as described below.
In cases where ductility based column design is not provided per this Article, the
methods of Section 5.4.4 shall be used to determine seismic response for design.
Moment-curvature definitions shall be developed for all elements, including
substructure elements subject to non-linear behavior (geometric or material).
Capacity protected elements shall be designed for essentially elastic behavior based
on 1.2 times the demand displacements or 1.2 times the ground motions derived
from the non-linear time history analyses for the event suite defined in Section 5.4.4.
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Nonlinear Foundation Analysis
Depth-varying
ground motions
and soil springs
Pier-specific:
based on soil
conditions and
site response
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Structural Model Basis Moment-Curvature Elements
Towers modeled with moment-
curvature elements throughout (excl
anchor box)
Piles modeled with moment-
curvature elements (non-composite
at cap interface)
Strain Distribution Through Strain
Hardening (versus explicit hinge L)
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Basis of Design
Time-History Design Basis Non-linear modeling of both structure and soil
Lateral Spreading directly applied to structure through motions (permanent drift)
Direct measure of demands for expansion joints, dampers, etc.
Monitoring of NL strain demands in foundation elements.
Implementation of foundation protection
Plastic hinging might not be appropriate as discussed when not governed by EQ
1.2 times displacement demand as standard; may not appropriately capture demands at depth
(liquefaction forces); OR
1.2 times motions; do not compound margins applied to ground motions (liquefiable sites)
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Discussion