2014
DOI: 10.1016/j.ijplas.2014.06.004
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Strain localization and damage in dual phase steels investigated by coupled in-situ deformation experiments and crystal plasticity simulations

Abstract: a b s t r a c tFerritic-martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. with strong strain and stress partitioning at the micro-scale. Such heterogeneity in local strain evolution leads in turn to a spatially heterogeneous damage distribution, and thus, plays an important role in the process of damage inheritance and fracture. To understand and improve DP steels, it is important to identify connections between the observed strain and damage heterogeneity and the under… Show more

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Cited by 457 publications
(195 citation statements)
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References 29 publications
(36 reference statements)
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“…With typical experimental equipment, these quantities cannot be readily determined at all (in the case of stress), or the acquisition requires significant efforts (in the case of strain, where, e.g., digital image correlation techniques are needed [38][39][40] ). The local distributions of equivalent true strain (e vM ) and stress (r vM ) at the final loading state, i.e.…”
Section: Simulation Results Obtained By Damaskmentioning
confidence: 99%
“…With typical experimental equipment, these quantities cannot be readily determined at all (in the case of stress), or the acquisition requires significant efforts (in the case of strain, where, e.g., digital image correlation techniques are needed [38][39][40] ). The local distributions of equivalent true strain (e vM ) and stress (r vM ) at the final loading state, i.e.…”
Section: Simulation Results Obtained By Damaskmentioning
confidence: 99%
“…1) also suggests that the effect of crystallographic orientation could be more dominant than the effect of grain size for the initiation of plasticity in this case. It is noted that trigonal α-Fe 2 O 3 rather than cubic Fe 3 O 4 is strongly anisotropic and involves different microscopic mechanisms such as mechanical twinning and dislocation glide [44,45]. Thus, the mismatch between α-Fe 2 O 3 and Fe 3 O 4 are often considered to be responsible for various peculiar features of plastic flow [46].…”
Section: Discussionmentioning
confidence: 99%
“…Strain concentration in dual phase steels as a result of uniaxial deformation has been observed in ferrite neighboring martensite. 18,[22][23][24] In dual phase steels having a high volume fraction of martensite, the martensite is also deformed when large strain is applied, 25) and this deformation of the martensite may enhance hydrogen embrittlement. However, since the applied strain in this study was small, the strain is probably concentrated in the ferrite neighboring the martensite, as shown in Fig.…”
Section: Hydrogen Embrittlement Behavior Of Dual Phasementioning
confidence: 99%