Earthquake Resistant Design of Structures (2006)
- Pankaj Agarwal
Manish Shrikhande
Contents:
- Engineering
seismology
- Seismic
zoning map of India
- Strong
motion studies in India
- Strong
motion characteristics
- Evaluation
of seismic design parameters
- Initiation
into structural dynamics
- Dynamics
of single degree of freedom systems
- Theory
of seismic pickups
- Numerical
evaluation of dynamic response
- Response
spectra
- Dynamics
of multi-degree of freedom systems
- Earthquake
and vibration effect on structures: Basic elements of earthquake resistant
design
- Identification
of seismic damages in RC buildings
- Effect
of structural irregularities on the performance of RC buildings during
earthquakes
- Seismoresistant
building architecture
- Code
based procedure for determination of design lateral loads
- Consideration
of infill wall in seismic analysis of RC buildings
- Step-by-step
procedure for seismic analysis of a Four-storeyed RC building as per IS 1893
(part 1): 2002
- Mathematical
modeling of multi-storeyed RC buildings
- Ductility
considerations in earthquake resistant design of RC buildings
- Earthquake
resistant design of a Four-storey RC building based on IS 13920: 1993
- Earthquake
resistant design of shear wall as per IS 13920: 1993
- Capacity
based design – An approach for earthquake resistant design of soft storey RC
buildings
- Identification
of damages and Non-damages in masonry buildings from past Indian earthquake
- Elastic
properties of structural masonry
- Lateral
load analysis of masonry buildings
- Seismic
analysis and design of Two-storeyed masonry buildings
- Seismic
evaluation of reinforced concrete buildings: A practical approach
- Seismic
retrofitting strategies of reinforced concrete buildings
- Seismic
retrofitting of reinforced concrete buildings – Case studies
- Seismic
provisions for improving the performance of Non-engineered masonry construction
with experimental verifications
- Retrofitting of masonry buildings
No comments:
Post a Comment