Actions and Retrofit of Post Earthquake-Damaged Bridges

Name: Actions and Retrofit of Post Earthquake-Damaged Bridges
Uploaded: 2017-08-10T14:43:51+00:00
Duration: PTM10S17
Channel: Charlie Goodyear
Description: Actions and Retrofit of Post Earthquake-Damaged Bridges

Actions and Retrofit of Post Earthquake-Damaged Bridges
Riyad S. Aboutaha, PhD, F-ACI Associate Professor Syracuse University Albany, NY Sept. **, 2010 NYSDOT Syracuse University University at Buffalo

GENERAL OUTLINE Introduction and Classification of Post-EQ Repair
Post-EQ Retrofit of Bridge Elements Field Guide for Post-EQ Retrofit of Bridge Elements Summary and Conclusions

INTRODUCTION and CLASSIFICATION
OBJECTIVE Provide field inspectors and engineers with a quick guide for post-earthquake retrofit of bridges CLASSIFICATIONS Immediate Action / Retrofit Short-Term Retrofit Long-Term Retrofit

IMMEDIATE ACTION/RETROFIT Intended to stabilize the bridge and reduce the likelihood of further damage or progressive collapse, particularly during after-shocks Make the site safer for safer for further detailed inspection and retrofit

SHORT-TERM RETROFIT Intended to make the bridge safer for light emergency traffic (police cars, and ambulances, etc.), heavy emergency traffic (fire trucks) at limited speed, or allow ALL traffic. Immediate and short term retrofits may overlap, where the immediate-retrofit may serve as short-term retrofit.

LONG-TERM RETROFIT Intended to restore the bridge to its original strength, and possibly strengthen the bridge to improve its seismic resistance It may involve detailed seismic analysis of the bridge, as well as detailed design of the retrofit system by a structural engineer

Deck Failure

Superstructure Joint Failure

Pounding Damage

Column Damage (Flexure / Shear)

Column Failure

BASIC ASSESSMENT Identify the purpose of the element /sub-element SHEAR FAILURE Purpose of stirrups Resist shear Confine column Prevent buckling of longitudinal bars

POST-EQ RETROFIT OF BRIDGES
MATERIALS Steel: structural shapes, prestressing strands/bars, plates, and cables. Fiber Reinforced Polymer (FRP) Composite Polymer concrete Polymer modified concrete / Non-shrink Grout Special tools: flat jacks, chains, etc.

Application of External Prestressing strands/bars External Post-tensioning

Application of Structural shapes/cables

Application of Structural Steel Plates Uniform Confining Pressure 1.0 inch thick non-shrink grout Min. ½” thick Steel jacket Steel jacketed circular column Uniform confining pressure produced by circular steel jacket

Application of Structural Steel Plates 4.0” long steel angle with hole for assembly of steel shells spaced 3 feet center-center Steel bolt Assembly detail of a circular steel jacket

Application of Structural Steel Plates Steel back plate for field welding. It is welded to one steel shell in shop, and field welded to the other shell. Details of the circular steel jacket’s shells

Application of Structural Steel Plates Non-Uniform Confining Pressure Shear retrofit of rectangular column section using rectangular steel jacket Non-uniform confining pressure produced by rectangular steel jacket

Application of Structural Steel Plates Lap splice retrofit of rectangular column section using elliptical steel jacket

Application of FRP Composites FRP Diagonal anchor (a) Straight FRP sheet along with diagonal FRP anchors.

Application of FRP Composites Uniaxial FRP Composite strip/sheet Uniaxial Diagonal FRP anchor (b) Isometric view of a strengthened beam with straight FRP system on the tension side, along with diagonal FRP anchors.

Application of FRP Composites Uniform Confining Pressure FRP repaired circular column section Uniform confining pressure produced by circular FRP jacket

Approach Roadways Bridge Decks Bridge Abutments Bridge Piers and Column Bridge Girders Foundation

Retrofit of Damaged Approach Roadway In general, the level of damage is classified based on amount of settlement For minor settlement (d<2”), it is not a critical structural damage, however, it may pose serious driving hazard, that may affect traffic safety (use warning signs) For major settlement (d>6”), must check abutment and its wing walls Retrofit: refilled/repaved

Retrofit of Damaged Approach Roadways

POST-EQ RETROFIT OF BRIDGES Retrofit of Damaged Bridge Decks
Minor Moderate Severe

Retrofit of Damaged Bridge Decks

Retrofit of Damaged Bridge Abutment EQ

Retrofit of Damaged Bridge Abutment

Retrofit of Damaged Bridge Pier Columns Typical Seismic Deficiencies

Retrofit of Damaged Bridge Pier Column (Shear Failure) Minor Severe

Retrofit of Damaged Bridge Pier Column (Shear Failure)

Retrofit of Damaged Bridge Pier Columns Typical Seismic Deficiencies

Retrofit of Damaged Bridge Pier Column (Flexural Failure) Minor Severe

Retrofit of Damaged Bridge Pier Column (Flexural Failure)

Retrofit of Damaged Prestressed Concrete Girders

Retrofit of Damaged Steel Girders

Foundation Failure (a) Pile Overload (e) Rebar Flexural Yielding (b) Shear Failure (c) Anchorage Failure (d) Pile Pullout (f) Pile Shear Failure

Retrofit of Damaged Foundation Check Deformations (rotation, level), and concrete distress Requires extensive structural evaluation and retrofit measures

Strategies page 1

Strategies page 2

Summary & Conclusions Good understanding of the behavior of bridge elements helps identify the load path, and consequently the best retrofit system to ensure the continuity of the load path A retrofit system is intended to serve the role of the damaged element or sub-element Pay attention to the overall stability of the bridge system Last but not least: SAFETY COMES FIRST!

THANK YOU!

Actions and Retrofit of Post Earthquake-Damaged Bridges

Similar presentations

Presentation on theme: "Actions and Retrofit of Post Earthquake-Damaged Bridges"— Presentation transcript:

Similar presentations

About project

Feedback

Log in

Auth with social network:

Actions and Retrofit of Post Earthquake-Damaged Bridges

Similar presentations

Presentation on theme: "Actions and Retrofit of Post Earthquake-Damaged Bridges"— Presentation transcript:

Similar presentations

About project

Feedback