Print Email Facebook Twitter Simulating interaction between level ice and conical structures with a 2D lattice model Title Simulating interaction between level ice and conical structures with a 2D lattice model Author van Vliet, R. (TU Delft Dynamics of Structures; Shell Projects & Technology) Metrikine, A. (TU Delft Offshore Engineering; TU Delft Engineering Structures) Department Engineering Structures Date 2018 Abstract Structures with a downward sloping waterline shape in Arctic or sub-Arctic regions experience reduced loading from ice on the structure and its foundation compared to vertical structures as the slope causes the ice to fail in bending. For the design of these structures, a numerical model is desired that can predict the loading from the ice on the structure by simulating the physical processes that occur when the ice fails. A numerical 2D lattice model has been developed to simulate level ice behavior. The model is composed of masses and interconnecting springs, taking into account deformation in tension, compression, bending, shear and torsion in the ice sheet. Deformation and failure criteria in the model are based on first principles, enabling a physically sound simulation of breaking processes. In addition, the discrete lattice model avoids stress singularities in fracture modeling since the model only describes displacements and forces in the connections and no stresses are present. In this paper interaction between ice and a downward sloping conical structure is simulated with the lattice model and compared with data from scale model tests. From the model test results it was observed that level ice and larger ice floes fail in sequential bending during interaction with a structure, giving a repetitive load pattern. Smaller ice floes split and break in bending into smaller parts and a sequential breaking pattern does not develop. The lattice model is capable of simulating failure in bending, splitting and combinations of these. In contrast, predictions of the model presented herein suffer from limitations of the contact model between the ice and the structure, the lack of a clearing mechanism and the use of a regular lattice mesh. Subject FailureIceLattice model To reference this document use: http://resolver.tudelft.nl/uuid:430d6a45-1f8b-4899-ba0d-cf515762d7be Source Proceedings of the 24th International Conference on Port and Ocean Engineering under Arctic Conditions: June 11-16, 2017, Busan, Korea Event 24th International Conference on Port and Ocean Engineering under Arctic Conditions, 2017-06-11 → 2017-06-16, Busan, Korea, Republic of Series Proceedings of the International Conference on Port and Ocean Engineering under Arctic Conditions, POAC, 0376-6756 Part of collection Institutional Repository Document type conference paper Rights © 2018 R. van Vliet, A. Metrikine Files PDF POAC17_057_Renate.pdf 1.32 MB Close viewer /islandora/object/uuid:430d6a45-1f8b-4899-ba0d-cf515762d7be/datastream/OBJ/view