On contribution of aftershocks to cumulative seismic damage in RC frames
By: Das, Sandip
.
Contributor(s): Gupta, Vinay Kumar.
Publisher: Roorkee Indian Society of Earthquake 2022Edition: Vol.59(1), Mar.Description: 1-26p.Subject(s): Civil EngineeringOnline resources: Click here
In:
ISET Journal of earthquake technologySummary: Aftershocks have the potential to cause collapse of a structure damaged by the preceding main shock
and thus the conventional single event-based seismic design may not guarantee the desired safety against
earthquake ground motions. A systematic investigation is carried out in this study on the relative
contribution of aftershock ground motions to cumulative structural damage in the case of three Indian
code-designed reinforced concrete bare frames having different fundamental periods. Assuming that the
response spectrum and time-frequency characteristics of the aftershock motions may be related to these
characteristics of the main shock motion, a variety of seismic scenarios (in terms of earthquake
magnitude, representative distance, focal depth and soil type), and response spectrum and time-frequency
characteristics of the anticipated main shock motion are considered, and corresponding main shock and
aftershock ground motions are generated. The damage analysis shows that short-period structures are
more vulnerable to the aftershock-induced damage compared to the long-period structures, unless the
main shock motion has a significant long period component or is associated with relatively shallower
aftershocks. Further, the severity of aftershock events (in comparison with that of the main shock event)
increases significantly for the longer main shock and shallower aftershock events, and for the
high-frequency main shock motions in the case of short-period structures. It is also found that the relative
aftershock severity can be estimated in terms of the relative ground motion parameters like the ratios of
duration and spectral ordinates for the aftershock to those for the main shock.
| Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|
Articles Abstract Database
|
School of Engineering & Technology (PG) Archieval Section | Not for loan | 2023-0485 |
Aftershocks have the potential to cause collapse of a structure damaged by the preceding main shock
and thus the conventional single event-based seismic design may not guarantee the desired safety against
earthquake ground motions. A systematic investigation is carried out in this study on the relative
contribution of aftershock ground motions to cumulative structural damage in the case of three Indian
code-designed reinforced concrete bare frames having different fundamental periods. Assuming that the
response spectrum and time-frequency characteristics of the aftershock motions may be related to these
characteristics of the main shock motion, a variety of seismic scenarios (in terms of earthquake
magnitude, representative distance, focal depth and soil type), and response spectrum and time-frequency
characteristics of the anticipated main shock motion are considered, and corresponding main shock and
aftershock ground motions are generated. The damage analysis shows that short-period structures are
more vulnerable to the aftershock-induced damage compared to the long-period structures, unless the
main shock motion has a significant long period component or is associated with relatively shallower
aftershocks. Further, the severity of aftershock events (in comparison with that of the main shock event)
increases significantly for the longer main shock and shallower aftershock events, and for the
high-frequency main shock motions in the case of short-period structures. It is also found that the relative
aftershock severity can be estimated in terms of the relative ground motion parameters like the ratios of
duration and spectral ordinates for the aftershock to those for the main shock.
Click on an image to view it in the image viewer
There are no comments for this item.