A variety of seismic response modification technologies are effectively used to mitigate damage of urban infrastructures during a significant earthquake. Seismic isolation is widely adopted for bridges. Isolation of underground structures from the surrounding soft soils is often used to mitigate the response. Various damper technologies are used in not only standard bridges but also long-span bridges. Rocking isolation is attracting increased interest. Emphasis of this lecture will be placed on the seismic design of transportation facilities including bridges and underground structures in soft soil deposits. The target of the seismic response modification of bridges and underground structures is not to secure the comfort of residence during small to moderate earthquakes as buildings but to enhance the seismic performance during a significant earthquake. Presented in this lecture are passive and semi-active damper technologies, variable dampers, advanced magnetic rheological damper, seismic isolation using elastomeric bearings including the lead rubber bearings and the high damping rubber bearings, effect of pounding of decks, rocking response isolation of foundations, isolation of underground structures, and implementation of seismic isolation to seismic retrofit of existing bridges.
A variety of seismic response modification technologies are effectively used to mitigate
damage of urban infrastructures during a significant earthquake. Isolation of underground
structures from the surrounding soft soils is often used to mitigate the response. Various
damper technologies are used in not only standard bridges but also long-span bridges.
Rocking isolation is attracting increased interest. Emphasis of this lecture will be placed on
the seismic design of transportation facilities including bridges and underground structures in
soft soil deposits.
1) Demand of seismic response modification based on past damage
2) Response modification using viscous dampers
3) Period shift in using seismic isolation
4) Effect of inelastic response of columns in seismic isolation
5) Effect of poundings
6) Design practice of isolators and dampers
7) Design practice of seismic isolation
8) Implementation of seismic isolation
9) Technical development in seismic isolation
10) Seismic response modification of superstructures
11) Rocking isolation
12) Application of seismic isolation to seismic retrofit
13) Isolation to underground structures
Original texts are provided by the lecturer. They can be downloaded from HP.
Require basic knowledge on structural analysis and dynamics of structures.
Evaluation depends on tests and reports.