Seismic Design for Bridges
( 25 Modules )

Module #1
Introduction to Seismic Design for Bridges
Overview of seismic design principles, importance, and concepts

Module #2
Seismic Hazard and Risk Assessment
Understanding seismic hazard, risk, and probability of exceedance

Module #3
Bridge Seismic Vulnerability
Identifying bridge types and components most vulnerable to seismic damage

Module #4
Seismic Design Philosophy and Criteria
Understanding the basis of seismic design, including performance-based design

Module #5
Seismic Loads and Load Combinations
Calculating seismic loads, including horizontal and vertical components

Module #6
Site-Specific Seismic Hazards
Incorporating site-specific seismic hazard information into bridge design

Module #7
Soil-Foundation-Structure Interaction
Understanding the effects of soil-structure interaction on seismic response

Module #8
Seismic Analysis Methods
Overview of seismic analysis methods, including equivalent static analysis and response spectrum analysis

Module #9
Linear Dynamic Analysis
Conducting linear dynamic analysis for seismic design

Module #10
Nonlinear Dynamic Analysis
Conducting nonlinear dynamic analysis for seismic design

Module #11
Seismic Design of Bridge Foundations
Designing bridge foundations to resist seismic loads

Module #12
Seismic Design of Bridge Piers and Abutments
Designing bridge piers and abutments to resist seismic loads

Module #13
Seismic Design of Bridge Superstructures
Designing bridge superstructures to resist seismic loads

Module #14
Seismic Retrofitting of Existing Bridges
Retrofitting existing bridges to improve seismic resistance

Module #15
Seismic Isolation Systems
Using seismic isolation systems to reduce seismic demands on bridges

Module #16
Damping Devices and Systems
Using damping devices and systems to reduce seismic response

Module #17
Seismic Design for High-Seismic Regions
Designing bridges for high-seismic regions, including near-fault and soft-soil conditions

Module #18
Special Seismic Design Considerations
Addressing special seismic design considerations, including liquefaction and landslides

Module #19
Seismic Design for Long-Span Bridges
Designing long-span bridges to resist seismic loads

Module #20
Seismic Design for Cable-Stayed and Suspension Bridges
Designing cable-stayed and suspension bridges to resist seismic loads

Module #21
Seismic Design for Arch and Rigid Frame Bridges
Designing arch and rigid frame bridges to resist seismic loads

Module #22
Seismic Design for Movable Bridges
Designing movable bridges to resist seismic loads

Module #23
Seismic Design for Bridge Construction Phases
Addressing seismic design considerations during bridge construction phases

Module #24
Seismic Design for Bridge Inspection and Maintenance
Importance of seismic design in bridge inspection and maintenance

Module #25
Course Wrap-Up & Conclusion
Planning next steps in Seismic Design for Bridges career

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Seismic Design for Bridges ( 25 Modules )

Seismic Design for Bridges
( 25 Modules )