Presentation is loading. Please wait.

Presentation is loading. Please wait.

Bridge Vulnerabilities Oct 2010. What puts bridges at risk? Ability to withstand seismic forces and displacements.

Published byNaomi Carr Modified over 9 years ago

Similar presentations

Presentation on theme: "Bridge Vulnerabilities Oct 2010. What puts bridges at risk? Ability to withstand seismic forces and displacements."— Presentation transcript:

1 Bridge Vulnerabilities Oct 2010

2 What puts bridges at risk? Ability to withstand seismic forces and displacements

3

4 What puts bridges at risk? Hazard factors (proximity, magnitude, duration…) Site factors (soil conditions e.g. soft saturated soils) Bridge design – Bridges built before 1980 often have inadequate provisions for horizontal loading since modern seismic design codes weren’t adopted until late 1970’s – Structural continuity; redundancy; skewed or curved – Seat width (support length); bearing type (high rockers) – Reinforcing details, especially in reinforced concrete piers – High piers; piers with varying heights Bridge condition – Fatigue; corrosion – Retrofitted? – Flagged? Consequence of failure (lifeline route, high AADT)

5 It’s all in the details.

6 Many of the following examples are from Hurricane Katrina but the concept is the same.

7 Shear blocks provides lateral restraint

8 Lateral forces can move entire spans This and other examples are from Hurricane Katrina but the principle is the same.

9 Displaced Joint

10 “Pounding” from longitudinal movement

11 Pedestals provided lateral restraint

12 Support Length

13 Dropped Spans

14 Lateral Shift

15 Column Retrofit (Steel jackets & FRP Wraps)

16 Open Finger Joints

17 Unreinforced & Masonry Abutments

18 Floor Beam Hanger Detail

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

Download ppt "Bridge Vulnerabilities Oct 2010. What puts bridges at risk? Ability to withstand seismic forces and displacements."

Similar presentations

Recent Experience in Turkey for Building Vulnerability and Estimating Damage Losses P. Gülkan and A. Yakut Middle East Technical University.

Recent Experience in Turkey for Building Vulnerability and Estimating Damage Losses P. Gülkan and A. Yakut Middle East Technical University.
Potential Solutions Goals for Design – What are we concerned about? –Primary Goal: Get the deck on successfully Stability during deck pour Stability during.

Potential Solutions Goals for Design – What are we concerned about? –Primary Goal: Get the deck on successfully Stability during deck pour Stability during.
Chapter-2 Parts of Steel Bridge.

Chapter-2 Parts of Steel Bridge.
Actions and Retrofit of Post Earthquake-Damaged Bridges

Actions and Retrofit of Post Earthquake-Damaged Bridges
Seismology and Earthquake Engineering :Introduction Lecture 3

Seismology and Earthquake Engineering :Introduction Lecture 3
Bridge Engineering (6) Superstructure – Concrete Bridges

Bridge Engineering (6) Superstructure – Concrete Bridges
Structural System Overview

Structural System Overview
Ma.Carlota Fermín Jorge Matheus

Ma.Carlota Fermín Jorge Matheus
CEA UNIT 3 TERMS & DEFINITIONS. BEAM A structural member, usually horizontal, that carries a load that is applied transverse to its length.

CEA UNIT 3 TERMS & DEFINITIONS. BEAM A structural member, usually horizontal, that carries a load that is applied transverse to its length.
MUSE 11B Buildings in Earthquakes Why do buildings do the things they do?

MUSE 11B Buildings in Earthquakes Why do buildings do the things they do?
Annual Meeting Montréal September 26, 2009

Annual Meeting Montréal September 26, 2009
ATHENS 12 th of April, 20131 M. Eng. Velyan Petkov The European Center for Risk Prevention, Sofia, Bulgaria Bulgarian seismic design codes and civil construction.

ATHENS 12 th of April, M. Eng. Velyan Petkov The European Center for Risk Prevention, Sofia, Bulgaria Bulgarian seismic design codes and civil construction.
Contents : Introduction. Rapid Visual Screening.

Contents : Introduction. Rapid Visual Screening.
Foundation Systems.

Foundation Systems.
STRUCTURAL BASICS. Redundancy Redundancy Brittleness/ductility Brittleness/ductility Building dynamic behavior Building dynamic behavior Degradation of.

STRUCTURAL BASICS. Redundancy Redundancy Brittleness/ductility Brittleness/ductility Building dynamic behavior Building dynamic behavior Degradation of.
POTENTIAL ISSUE TEAM STUDIES CONCRETE CODIFICATION OPPORTUNITIES 1. CONCRETE SHEAR WALLS Current Codes provide detailed provisions for the seismic design.

POTENTIAL ISSUE TEAM STUDIES CONCRETE CODIFICATION OPPORTUNITIES 1. CONCRETE SHEAR WALLS Current Codes provide detailed provisions for the seismic design.
SCEC Annual Meeting - ITR 09/17/021 1999 Izmit Earthquake August 17, 3:02am, 1999 Mw 7.4 Mw earthquake: >18,000 fatalities >300,000 homeless.

SCEC Annual Meeting - ITR 09/17/ Izmit Earthquake August 17, 3:02am, 1999 Mw 7.4 Mw earthquake: >18,000 fatalities >300,000 homeless.
Damage Illustrations. Potential Bridge Damage Bridge Component / DamagePossible Cause Approach Slab or Pavement  Raised, lowered, cracked, or buckled.

Damage Illustrations. Potential Bridge Damage Bridge Component / DamagePossible Cause Approach Slab or Pavement  Raised, lowered, cracked, or buckled.
PILE FOUNDATION BY-.

PILE FOUNDATION BY-.
Prof. Sarosh H Lodi NED University of Engineering and Technology What Works and Does not Work in the Science and Social Science of Earthquake Vulnerability,

Prof. Sarosh H Lodi NED University of Engineering and Technology What Works and Does not Work in the Science and Social Science of Earthquake Vulnerability,

Similar presentations

Ads by Google