The purpose of this study is to estimate structural integrity evaluation of the concrete pontoon structure when the boundary condition and time changes. The structural integrity evaluation is conducted through the system identification method using dynamic properties. Dynamic properties are extracted with the structures when it is located on the ground and submerged in the sea. The variation of the structural stiffness due to a certain period time is discussed.
Pumping Station is amended ('15.1.6) a special law (hereinafter siteukbeop) on the safety management of the facility has been incorporated into kinds of facilities. This study aims to introduce siteukbeop drainage pumping stations as part of condition assessment techniques detailed guidelines established for drainage pumping stations being incorporated into the new facility as amended.
In this paper, four damage detection techniques based on dynamic characteristics were utilized and compared to identify damage in a Steel Catenary Riser(SCR). Twelve damage scenarios were simulated by using a numerical model of SCR. The performance on damage detection for each technique was showed and the applicability was discussed.
The marine structures vibrate due to waves, current and wind load. Therefore, the marine structures is needed to evaluate the vibration usability for health and comfort of the user. In this paper, the vibration usability evaluation applying to the ISO 2631-2 and ISO 6954 standard was performed and discussed.
This paper provides a method to detect damage of pontoon bridge based on interpolated mode shape from forced vibration test. The 35 mode displacement vectors are interpolated with the 117 mode displacement vectors. By using the interpolated mode shape, the precision of the damage detection methods was improved.