Investigation of strain localization on marine structural steels: Uniaxial tests

Investigation of strain localization on marine structural steels: Uniaxial tests

Results of a series of uniaxial tests to investigate fracture initiation states of AH32 steel, a ship structural steel, are presented. Strains at fracture are obtained using digital image correlation analysis via DaVis LaVision software, and the corresponding states of stress are obtained via a plas...

Full description

Saved in:
Bibliographic Details
Published in:Ocean engineering Vol. 216; p. 107844
Main Authors: Akçay, Fuzuli Ağrı, Karr, Dale G., Perlin, Marc
Format: Journal Article
Language:English
Published: Elsevier Ltd 15-11-2020
Subjects:
AH32 steel
Digital image correlation
Ductility
Fracture
Plasticity
Scale effect
Fracture
Ductility
Digital image correlation
Scale effect
Plasticity
AH32 steel
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Results of a series of uniaxial tests to investigate fracture initiation states of AH32 steel, a ship structural steel, are presented. Strains at fracture are obtained using digital image correlation analysis via DaVis LaVision software, and the corresponding states of stress are obtained via a plastic flow rule and a hardening relationship using the measured strains. The strain fields are calculated to the point of fracture initiation where the fracture initiation is defined as the condition when the first visible crack appears in the digital image of the test specimen. The software provides displacement and strain fields of the entire region and any specified sub-region of the imaged surface, which uses a so-called ‘geometric mask’. The strain values are mask-size dependent due to the local nature of deformation before fracture. Therefore, in the current study, strain fields are obtained for various mask sizes to investigate the effect of mask size on failure strain, i.e., strain localization phenomena, with the minimum mask size chosen at roughly the limit of the continuum scale (O (100 μm)). The evolution of the stress and strain fields as a function of loading is provided for different mask sizes. Moreover, comparison of the failure strain as mask sizes are decreased provides information on strain convergence. In this investigation, non-convergence behaviors are obtained for all experiments, as failure strain increased as the mask sizes are decreased. •A series of uniaxial tests are conducted to investigate fracture initiation states.•Effect of the element/mask size on the fracture behavior of AH32 steel are explored.•Strains at fracture are obtained using digital image correlation analysis.•States of stress are obtained via a plastic flow rule and a hardening relationship using the measured strains.•No strain convergence at the continuum scale are obtained for all experiments.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2020.107844