[2016] An experimental and numerical study on nonlinear impact respons…
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http://www.sciencedirect.com/science/article/pii/S0734743X16300501 20361 Connection
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International Journal of Impact Engineering, Vol.93, pp.99-115, July 2016
An experimental and numerical study on nonlinear impact responses of steel-plated structures in an Arctic environment
Author(s): Ki Jong Kim, Jong Hwan Lee, Dae Kyeom Park, Bo Gyeong Jung, Xu Han and Jeom Kee Paik
Abstract:
Ships and offshore platforms that operate in Arctic regions at low temperatures are likely subjected to impact loads that arise from collisions with icebergs. The aim of this paper was to examine the nonlinear impact response of steel-plated structures in an Arctic environment. In addition to material tensile tests for characterisation of the mechanical properties of polar-class high-tensile steel of grade DH36, an experimental study was undertaken in a dropped-object test facility on steel-plated structure models under impact loads and at low temperatures equivalent to those in Arctic regions. LS-DYNA nonlinear finite element computations were also performed for the corresponding test models. We conclude that nonlinear finite element analyses are useful in the analysis of the nonlinear impact structural responses involving yielding, crushing and brittle fracture at low temperatures as long as the modelling techniques are adequate. The conclusions and insights developed in this paper should be useful in the safety design of ships and offshore platforms intended for operation in Arctic regions.
An experimental and numerical study on nonlinear impact responses of steel-plated structures in an Arctic environment
Author(s): Ki Jong Kim, Jong Hwan Lee, Dae Kyeom Park, Bo Gyeong Jung, Xu Han and Jeom Kee Paik
Abstract:
Ships and offshore platforms that operate in Arctic regions at low temperatures are likely subjected to impact loads that arise from collisions with icebergs. The aim of this paper was to examine the nonlinear impact response of steel-plated structures in an Arctic environment. In addition to material tensile tests for characterisation of the mechanical properties of polar-class high-tensile steel of grade DH36, an experimental study was undertaken in a dropped-object test facility on steel-plated structure models under impact loads and at low temperatures equivalent to those in Arctic regions. LS-DYNA nonlinear finite element computations were also performed for the corresponding test models. We conclude that nonlinear finite element analyses are useful in the analysis of the nonlinear impact structural responses involving yielding, crushing and brittle fracture at low temperatures as long as the modelling techniques are adequate. The conclusions and insights developed in this paper should be useful in the safety design of ships and offshore platforms intended for operation in Arctic regions.
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