Modelling of Granular Fracture in Polycrystalline Materials Using Ordinary State-Based Peridynamics

Ning Zhu; Dennj De Meo; Erkan Oterkus

doi:10.3390/ma9120977

Modelling of Granular Fracture in Polycrystalline Materials Using Ordinary State-Based Peridynamics

Materials (Basel). 2016 Dec 2;9(12):977. doi: 10.3390/ma9120977.

Authors

Ning Zhu¹, Dennj De Meo², Erkan Oterkus³

Affiliations

¹ Department of Naval Architecture, Ocean and Marine Engineering, University of Strathclyde, Glasgow G4 0LZ, UK. n.zhu@strath.ac.uk.
² Department of Naval Architecture, Ocean and Marine Engineering, University of Strathclyde, Glasgow G4 0LZ, UK. dennj.demeo@strath.ac.uk.
³ Department of Naval Architecture, Ocean and Marine Engineering, University of Strathclyde, Glasgow G4 0LZ, UK. erkan.oterkus@strath.ac.uk.

Abstract

An ordinary state-based peridynamic formulation is developed to analyse cubic polycrystalline materials for the first time in the literature. This new approach has the advantage that no constraint condition is imposed on material constants as opposed to bond-based peridynamic theory. The formulation is validated by first considering static analyses and comparing the displacement fields obtained from the finite element method and ordinary state-based peridynamics. Then, dynamic analysis is performed to investigate the effect of grain boundary strength, crystal size, and discretization size on fracture behaviour and fracture morphology.

Keywords: intergranular fracture; ordinary state-based peridynamics; polycrystalline materials; transgranular fracture.