Peer-Reviewed Journal Details
Mandatory Fields
Sweeney, CA,Vorster, W,Leen, SB,Sakurada, E,McHugh, PE,Dunne, FPE
2013
May
Journal Of The Mechanics And Physics Of Solids
The role of elastic anisotropy, length scale and crystallographic slip in fatigue crack nucleation
Published
()
Optional Fields
Microcracking Crystal plasticity Anisotropic material Length scale effects Crystallographic slip HIGH-CYCLE FATIGUE CRYSTAL PLASTICITY TITANIUM-ALLOYS FAILURE MODES POLYCRYSTAL ORIENTATION DEFORMATION MICROSTRUCTURE INITIATION MICROSLIP
61
1224
1240
Fatigue crack nucleation in polycrystal ferritic steel is investigated through experimental observation of multiple large-grained, notched, four-point bend tests combined with explicit microstructural representation of the same samples using crystal plasticity finite element techniques in order to assess fatigue indicator parameters, together with the roles of elastic anisotropy and length scale effects in slip development, and hence in crack nucleation.Elastic anisotropy has been demonstrated to play a pivotal role in the distribution and magnitude of polycrystal slip relative to observed crack nucleation sites in the context of constrained cyclic microplasticity. Length scale effects were found not to alter substantively the distributions or magnitudes of slip relative to the observed crack nucleation site, but in detailed analyses of an experimental sample, the location of highest magnitude of geometrically necessary dislocations was found to coincide precisely with the position of predicted peak plasticity and the experimentally observed crack nucleation site.The distributions of microplasticity within polycrystal samples were found to change quite significantly between the first yield and after multiple cycles. As a result, the effective plastic strain per cycle was found to be a better indicator of fatigue crack nucleation than peak effective plastic strain. In nine independently tested and analysed polycrystal samples, the cyclic effective plastic strain and crystallographic system peak accumulated slip were found to be good indicators of a fatigue crack nucleation site. (C) 2013 Elsevier Ltd. All rights reserved.
DOI 10.1016/j.jmps.2013.01.001
Grant Details
Publication Themes