AbstractA new damping system, the viscoelastic coupling damper (VCD), has been developed to enhance the wind and seismic performance of coupled shear wall high-rise buildings by adding high damping elements in place of reinforced concrete coupling beams. VCDs replace structural members, such as outriggers or coupling beams, and therefore do not occupy any usable architectural space. When they are properly configured in high-rise buildings, they provide supplemental viscous damping to all lateral modes of vibration, which mitigates building tenant vibration perception problems and reduces both the wind and earthquake response. Experimental results from tests on five small-scale viscoelastic (VE) damper specimens of 5- and 10-mm thicknesses are first presented, followed by the results from six full-scale VCDs representing two alternative configurations. The first was designed for areas where moderate seismic ductility is required, and the second was designed with built-in ductile structural fuses for areas ...
[1]
N. Isyumov,et al.
The role of damping, mass and stiffness in the reduction of wind effects on structures
,
1983
.
[2]
P. Mahmoodi,et al.
Performance of Viscoelastic Dampers in World Trade Center Towers
,
1987
.
[3]
Kazuhiko Kasai,et al.
PASSIVE CONTROL DESIGN METHOD BASED ON TUNING OF EQUIVALENT STIFFNESS OF VISCO-ELASTIC DAMPER
,
2006
.
[4]
A. G. Davenport,et al.
THE TREATMENT OF WIND LOADING ON TALL BUILDINGS
,
1967
.
[5]
N. Null.
Seismic Rehabilitation of Existing Buildings
,
2007
.
[6]
Michael Montgomery,et al.
Viscoelastic coupling dampers (VCDs) for enhanced wind and seismic performance of high‐rise buildings
,
2013
.
[7]
Kazuhiko Kasai,et al.
BEHAVIOR OF A PASSIVE CONTROL DAMPER COMBINING VISCO-ELASTIC AND ELASTO-PLASTIC DEVICES IN SERIES
,
2002
.