Akademik Veri Yönetim Sistemi
INTERNATIONAL CONGRESS ON ADVANCED EARTHQUAKE RESISTANT STRUCTURES (AERS 2023), Baku, Azerbaycan, 26 - 28 Nisan 2023, ss.1-15, (Tam Metin Bildiri)
This
study investigates the main reason for the durability of traditional Japanese
structures in active seismic zones using two types of natural seismic base
isolation (NSBI) devices derived from these structures. The modelling of the interaction between the
structure and foundation of these structures shows that part of the interaction
has a particular earthquake isolation characteristic; thus, it has the
potential to be used as an effective seismic isolation device. In the
traditional Japanese buildings, the contact between the foundations and the
structure were not anchored; thus, there were either two frictional sliding
interfaces between timber and stone, stone and stone, or only one interface
between timber and stone. The study investigates the feasibility of the
application of a structural-mathematical model to the structure-foundation
interaction model of traditional Japanese structures using the NSBI device with
single and two sliding interfaces. The
analysis has revealed that the NSBI devices have reduced the maximum
acceleration response by an average 60% when compared to a conventional
structure under earthquake excitation. A comparison of the earthquake acceleration performance of single and
dual interface NSBI devices clearly shows that the single friction interface
NSBI device is 4% more efficient than the two-sliding interface NSBI devices. This
investigation has revealed that the structure-foundation contact part of the
traditional Japanese buildings containing one or two sliding interfaces allow
the superstructure to move, thus reducing the effect of seismic forces on the
superstructure. This contact part, namely the NSBI device, acts as a passive
control system, and can be the main reason behind the durability of these
structures at one of the most active seismic zones in the world since the
ancient times.