STUDY ON THE EFFECT OF FLUID VISCOSITY VALUES ON THE PERFORMANCE OF FLUID VISCOUS DAMPER (FVD) IN A 20-STORY STEEL FRAME STRUCTURE
Indonesia is one of the countries located in the Pacific Ring of Fire. Consequently, Indonesia is susceptible to earthquake hazards. One of the devices capable of enhancing structural resilience against earthquakes is the Fluid Viscous Damper (FVD). In this Final Project, three 20-story steel fra...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/82592 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Indonesia is one of the countries located in the Pacific Ring of Fire.
Consequently, Indonesia is susceptible to earthquake hazards. One of the devices
capable of enhancing structural resilience against earthquakes is the Fluid
Viscous Damper (FVD). In this Final Project, three 20-story steel frame
structures will be compared. The first structure is not equipped with FVD, the
second structure is equipped with low-viscosity FVD, and the third structure is
equipped with high-viscosity FVD.
The Final Project begins with calculating the damping coefficient values for each
model, provided by Taylor Devices, using low and high fluid viscosity values.
Then, both structures equipped with FVD are analyzed with linear time history
analysis using ETABS v21.0.0 software. These two structures must meet two
criteria for structures with damper systems, namely maximum roof displacement
and maximum inter-story drift. The FVD placement configuration of both
structures is designed iteratively until these two criteria are met.
Based on the results obtained from the Final Project, the structure with highviscosity
FVD has smaller floor displacement and acceleration compared to the
low-viscosity FVD during an earthquake, although the reduction is not
significant. However, the high-viscosity FVD in the structure has a significantly
higher hysteresis curve compared to the low-viscosity FVD during an earthquake.
This means that the structure with high-viscosity FVD has a much better
capability in damping earthquake vibrations than the structure with low-viscosity
FVD. |
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