[2018] Experimental study on impact damage of membrane-type LNG carrie…
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Ships and Offshore Structures, Vol.13, No.S1, pp.S339-S347, 2018
Experimental study on impact damage of membrane-type LNG carrier cargo containment system due to dropped objects
Author(s): Bong Ju Kim
Abstract:
This study experimentally investigates the structural damage characteristics of a membrane-type LNGC CCS due to impacts arising from a dropped object, such as a pipe support or bolt and nut assembly. A series of impact tests was carried out with a full-scale LNGC CCS that included primary barriers, plywood panels, reinforced poly-urethane foam panels, and secondary barriers, to take into account the effect of the geometry and structural damping. A gun-type impact test machine was used to achieve an impact velocity corresponding to the free fall of the dropped object from a height of 27 m. The insights and conclusions developed in the present study will be useful in terms of experimental techniques used to measure impact damage on membrane-type LNGC CCS due to dropped objects, and also for developing design guidance based on the accidental limit state in this area.
Experimental study on impact damage of membrane-type LNG carrier cargo containment system due to dropped objects
Author(s): Bong Ju Kim
Abstract:
This study experimentally investigates the structural damage characteristics of a membrane-type LNGC CCS due to impacts arising from a dropped object, such as a pipe support or bolt and nut assembly. A series of impact tests was carried out with a full-scale LNGC CCS that included primary barriers, plywood panels, reinforced poly-urethane foam panels, and secondary barriers, to take into account the effect of the geometry and structural damping. A gun-type impact test machine was used to achieve an impact velocity corresponding to the free fall of the dropped object from a height of 27 m. The insights and conclusions developed in the present study will be useful in terms of experimental techniques used to measure impact damage on membrane-type LNGC CCS due to dropped objects, and also for developing design guidance based on the accidental limit state in this area.
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