공지[Earthquake design paradigm shift] ③ Earthquake resistance protects human life, and seismic isolation protects building functions
등록일 : 2024.10.22조회수 : 521
Differences in earthquake-resistance structures
Seismic isolation devices absorb most of the seismic force
LG CNS Busan Data Center is a representative
[Daehan Kyungjae = Reporter Kim Min-soo]
Structural performance in response to domestic earthquakes is largely divided
into △seismic resistance, △seismic control, and △seismic isolation.
Among these, seismic isolation is an
earthquake-resistant design that installs seismic isolation devices such as
laminated rubber, ball bearings, and large lead on the floor foundation between
the building and the ground so that the building is hardly affected by the
earthquake. In simple terms, it is a concept that secures the safety of the
building by separating the building from the ground. The seismic force is
mostly absorbed by the seismic isolation device.
If earthquake resistance is mainly aimed at
preventing casualties, seismic control and seismic isolation enable the
maintenance of the building's functions in addition. However, seismic control
protects the building by dispersing seismic energy (vibration) with external
seismic control devices such as dampers. Since the building is in contact with
the ground, seismic control cannot completely eliminate the impact on the
building.
Normally, apartments with
earthquake-resistant design can withstand earthquakes of around 6.0 on the
Richter scale, but apartments with seismic isolation and seismic control
designs are known to withstand large earthquakes of magnitude 7 or higher.
The representative seismic isolation
structure in Korea is the LG CNS Busan Data Center, which was completed in
2013. It is a very large-scale building that can simultaneously operate 72,000
servers in an area the size of 5 soccer fields, and is famous for being the
first building in Korea to have seismic isolation facilities. It is designed to
withstand even an earthquake of magnitude 8.0.
The Gyeongju National Museum, which
preserves various cultural assets, is also the first case of applying seismic
isolation facilities to cultural assets. It has seismic isolation facilities
that can withstand an earthquake of magnitude 8.3. Hillstate in Gochon, Gimpo,
is the first residential building to have seismic isolation devices applied,
and can withstand an earthquake of magnitude 7.0 or higher. Busan Gwangan
Bridge is the first seismic isolation bridge in Korea to have applied seismic
isolation technology using lead seismic support.
Korea's seismic isolation technology is at
a high level compared to other countries. UnisonHKR represents domestic seismic
isolation device manufacturer.
UnisonHKR was the first in Korea to apply
seismic isolation structures to buildings when it established its own
technology research center in 1998. In addition, it has applied seismic
isolation structures to LG CNS Data Center, IBK Hanam Data Center, NH
Integrated IT Center, BNK Financial Group IT Center, KDB Industrial Bank Data
Center, KB Kookmin Bank Integrated IT Center, Ulju Radiation Emergency Command
Center, and Gimpo Gochon Hyundai Hillstate.