Litcius/Paper detail

In-Plane and Out-of Plane Failure of an Ice Sheet using Peridynamics

Božo Važić, Erkan Oterkus, Selda Oterkus

2020Journal of Mechanics22 citationsDOIOpen Access PDF

Abstract

ABSTRACT When dealing with ice structure interaction modeling, such as designs for offshore structures/icebreakers or predicting ice cover’s bearing capacity for transportation, it is essential to determine the most important failure modes of ice. Structural properties, ice material properties, ice-structure interaction processes, and ice sheet geometries have significant effect on failure modes. In this paper two most frequently observed failure modes are studied; splitting failure mode for in-plane failure of finite ice sheet and out-of-plane failure of semi-infinite ice sheet. Peridynamic theory was used to determine the load necessary for inplane failure of a finite ice sheet. Moreover, the relationship between radial crack initiation load and measured out-of-plane failure load for a semi-infinite ice sheet is established. To achieve this, two peridynamic models are developed. First model is a 2 dimensional bond based peridynamic model of a plate with initial crack used for the in-plane case. Second model is based on a Mindlin plate resting on a Winkler elastic foundation formulation for out-of-plane case. Numerical results obtained using peridynamics are compared against experimental results and a good agreement between the two approaches is obtained confirming capability of peridynamics for predicting in-plane and out-of-plane failure of ice sheets.

Topics & Concepts

PeridynamicsPlane (geometry)Materials scienceIce sheetFailure mode and effects analysisMechanicsStructural engineeringGeologyGeometryContinuum mechanicsPhysicsComposite materialMathematicsEngineeringGeomorphologyNumerical methods in engineeringGeotechnical Engineering and Underground StructuresElectromagnetic Simulation and Numerical Methods