Finite element analysis of non-local effects in ductile fracture |
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| Authors: | I. C. Howard,& Z. H. Li |
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| Affiliation: | SIRIUS (Structural Integrity Research Institute;University of Sheffield), Department of Mechanical Engineering, The University of Sheffield, Mappin Street, Sheffield S1 3JD, UK |
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| Abstract: | The paper introduces a weight function for the nonlocal analysis of ductile damage that has the potential to provide approximately uniform averaged field variables over a limited region. When this region is identified with the underlying microstructural length scale of the material, the method is consistent with the view that, once damage is significant, a damaging cell behaves as a uniform entity. The analyses through which these effects have been studied concerned a unit cell idealizing a periodic array of large voids, connected by material that is capable of nucleating smaller-scale porosity. |
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| Keywords: | crack crack-tip constraint elastic– plastic fracture mechanics probabilistic fracture mechanics J-integral Q parameter J– resistance curve J–Q analysis single-edged-notched bend specimens |
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