Liquid storage tank is one of the major infrastructures and generally used to store gases, drinking and utilizing water, dangerous fluids, fire water and so on. According to the recent reports and experiences, the tank structures are damaged in many earthquakes due to their low energy dissipating capacity. Therefore, many researchers have been tried to know the dynamic properties of the tanks including liquids. However, vary limited experimental studies are carried out using relatively small tank models. In this study, a series of shaking table tests are performed with maximum 2 m cubic rectangular liquid storage tanks made of steel to measure the natural frequency and estimate damping coefficient of impulsive and convective mode of the tanks. Especially, the damping values under different shapes and excitation methods are estimated by logarithmic decrement method and half power band-pass method and compared with current design code and standards such as ASCE 7, Eurocode 8 and NZS. Test results show that the impulsive mode damping is around 2% which is proposed by general standards and codes but the impulsive mode damping is 0.13% average that is slightly lower than the code recommendation.

• 최형석(부산대학교 지진방재연구센터) | Hyoung Suk Choi (Seismic Simulation Test Center, Pusan National University)
• 박동욱(부산대학교 지진방재연구센터) | Dong Uk Park (Seismic Simulation Test Center, Pusan National University)
• 김성완(부산대학교 지진방재연구센터) | Sung Wan Kim (Seismic Simulation Test Center, Pusan National University)
• 김재민(전남대학교 해양토목공학과) | Jae Min Kim (Department of Marine and Civil Engineering, Chonnam National University)
• 백은림(부산대학교 지진방재연구센터) | Eun Rim Baek (Seismic Simulation Test Center, Pusan National University) Corresponding author