Void growth to coalescence in a non-local material |
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| Institution: | 1. Structural Impact Laboratory (SIMLab), Norwegian University of Science and Technology, N-7491 Trondheim, Norway;2. Hydro Aluminium, Research and Technology Development (RTD), NO-6601 Sunndalsøra, Norway;3. Centre for Advanced Structural Analysis (CASA), NTNU, NO-7491 Trondheim, Norway;1. Structural Impact Laboratory (SIMLab), Department of Structural Engineering, Norwegian University of Science and Technology (NTNU), NO-7491, Trondheim, Norway;2. Centre for Advanced Structural Analysis (CASA), NTNU, NO-7491, Trondheim, Norway;3. Laboratoire de Mecanique et Technologie, ENS Cachan/CNRS/Universite Paris-Saclay, Cachan, France |
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| Abstract: | The size-effect in metals containing distributed spherical voids is analyzed numerically using a finite strain generalization of a length scale dependent plasticity theory. Results are obtained for stress-triaxialities relevant in front of a crack tip in an elastic-plastic metal. The influence of different material length parameters in a multi-parameter theory is studied, and it is shown that the important length parameter is the same as under purely hydrostatic loading. It is quantified how micron scale voids grow less rapidly than larger voids, and the implications of this in the overall strength of the material is emphasized. The size effect on the onset of coalescence is studied, and results for the void volume fraction and the strain at the onset of coalescence are presented. It is concluded that for cracked specimens not only the void volume fraction, but also the typical void size is of importance to the fracture strength of ductile materials. |
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