Influence of crack tip constraint on void growth in ductile FCC single crystals |
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| Authors: | P. BiswasR. Narasimhan A. Tewari |
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| Affiliation: | a Material Characterisation and Modeling Group, India Science Lab, General Motors Global Research and Development, GM Technical Centre India Pvt Ltd., India
b Indian Institute of Science, Department of Mechanical Engineering, Bangalore 560012, India |
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| Abstract: | Effect of constraint (stress triaxiality) on void growth near a notch tip in a FCC single crystal is investigated. Finite element simulations within the modified boundary layer framework are conducted using crystal plasticity constitutive equations and neglecting elastic anisotropy. Displacement boundary conditions based on mode I, elastic, two term K-T field are applied on the outer boundary of a large circular domain. A pre-nucleated void is considered ahead of a stationary notch tip. The interaction between the notch tip and the void is studied under different constraints (T-stress levels) and crystal orientations. It is found that negative T-stress retards the mechanisms of ductile fracture. However, the extent of retardation depends on the crystal orientation. Further, it is found that there exists a particular orientation which delays the ductile fracture processes and hence can potentially improve ductility. This optimal orientation depends on the constraint level. |
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| Keywords: | Fracture Crystal plasticity Ductility Finite element analysis |
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