Quick-Release Field Experiments on Seismically Isolated Bridges - PowerPoint PPT Presentation

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Quick-Release Field Experiments on Seismically Isolated Bridges

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Quick-Release Field Experiments on Seismically Isolated Bridges Stuart S. Chen, Ph.D., P.E. Associate Professor, University at Buffalo (SUNY), Fulbright Senior ... – PowerPoint PPT presentation

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Title: Quick-Release Field Experiments on Seismically Isolated Bridges


1
Quick-Release Field Experiments on Seismically
Isolated Bridges
  • Stuart S. Chen, Ph.D., P.E.
  • Associate Professor, University at Buffalo
    (SUNY),
  • Fulbright Senior Lecturer, ITU

2
Presentation Outline
  • Comprehensive Study Overview
  • Bridges Studied
  • Loading and Instrumentation Apparatus
  • Selected Results
  • Anticipating Seismic Performance
  • Summary, Conclusions, Recommendations
  • Acknowledgements

3
Comprehensive Study! Overview
  • Two Similar Bridges, Before and After Seismic
    Retrofit with Isolation Bearings
  • Field (System Quick-Release) and Laboratory
    (Component Reverse-Cyclic) Experiments
  • Comparing Analytical vs. Experimental Dynamic
    Behavior
  • Inferring Seismic Performance from Calibrated
    Models

4
Seismic Isolation Concept
(Kelly, 2001)
5
Seismic Isolation Concept (contd)
(Kelly, 2001)
6
Bridges Plan View
7
Bridges Elevation Brg. Schedule
8
Bridge Cross Sections
9
Bridge Bearing Replacement (Abut.)
10
Bridge Bearing Replacement (Pier)
11
Installing Isolation Brgs at Abutments
12
Southbound Abutment Isolator
Kelly, 2001
13
Southbound Pier Isolator
14
Northbound Expansion Bearing (non-seismic)
15
Northbound Bridge Bearings
16
Objectives
  • Measure and assess in-situ dynamic behavior and
    performance of typical slab- on- girder bridge
    subjected to transverse quick-release loading
    (steel brgs vs. seismic isolation brgs vs.
    standard laminated elastomeric brgs)
  • Quantify in-situ dynamic performance change
    attributable to bearing retrofits

17
Objectives, contd
  • Quantify Winter-Weather Effects on In-Situ
    Performance of Isolation and Elastomeric Bearings
  • Assess Relative Merits of Several Modeling
    Approaches (at varying levels of complexity) in
    predicting transverse transient dynamic behavior
    of straight skewed slab-on-girder bridge
    structures

18
Loading Scheme
19
Loading Scheme (contd)
20
Loading Scheme (contd)
21
Loading Scheme (contd)
22
Loading Scheme (contd)
23
Loading Scheme (contd)
24
(Under-Bridge) Loading Scheme!
25
Loading Scheme (contd)
26
Loading Scheme The Importance of Genuinely Quick
Release!
27
Loading Scheme Mechanical Fuse
28
Loading Scheme Mechanical Fuse in Place
29
Selected Instrumentation
30
Selected Instrumentation (contd)
31
Selected Instrumentation (contd)
32
Selected Instrumentation (contd)
33
Selected Instrumentation (contd)
34
Selected Instrumentation (contd)
35
Selected Results Free Vibn
36
Pre-Retrofit in Frequency Domain
37
1st 2 Pre-Retrofit Mode Shapes
38
SAP Model
39
DRAIN-2DX Model
40
3rd Pre-Retrofit Mode Shape
41
Seismic Isolation Concept Recall!
Sd
Sa
?
T
T
42
Post- Retrofit Time- History at Abutment
43
Post-Retrofit SB (Linear Portion 2)
44
Post-Retrofit SB contd (Linear Portion 2)
45
Post-Retrofit NB (Linear Portion 2)
46
Post-Retrofit NB contd (Linear Portion 2)
47
Selected NB Post-Retrofit T-Hs
48
Post-Retrofit SB contd
49
Post-Retrofit SB (Nonlinear Portion 1)
50
Time, Temperature, Setup Effects (SB)
51
Old Steel Bearings Not So Bad After All!
52
C/D vs. PGA, Pre-Retrofitted
53
C/D vs. PGA, Post-Retrofitted
54
Summary, Conclusions, Recommendations
  • Transverse Quick-Release Experiments are
    successfully executed using the deployed
    apparatus
  • Replacement of the original steel bearings with
    seismic isolation bearings leads to substantial
    behavior changes (period shift, etc.) in the
    transverse direction, as predicted. However,
  • Due to reserve strength of columns and steel
    bearings, actual seismic resistance of the
    retrofitted southbound bridge is not greatly
    increased by its seismic isolation retrofit, and
  • The torsional behavior induced in the retrofitted
    northbound bridge nullifies the otherwise
    seismically beneficial effect of its standard
    (non-seismic) elastomeric bearing retrofit

55
Summary, Conclusions, and Recommendations (contd)
  • Neither a 3D Model nor formal structural
    identification methods produce any significant
    advantages over 2D modeling as long as nonlinear
    behavior is incorporated into the model
    (DRAIN-2DX)
  • Cold-weather effects in western NY are not
    sufficiently severe to have a significant
    influence on LRB seismic isolation behavior

56
Acknowledgements
  • J. B. Mander, D. Wendichansky, G. Pekcan, D.-K.
    Kim, I.-S. Ahn, L. Zhang, P. Dreyer, etc.
  • New York State Dept. of Transportation, Union
    Concrete and Construction Corp.
  • U.S. D.O.T. / Federal Highway Administration
    funding through NCEER/MCEER at the University at
    Buffalo
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