Biaxial experiments and numerical simulations on damage and fracture mechanisms in ductile metals at different loading conditions
Zeitschrift:
Procedia Structural Integrity
Jahrgang:
2
Konferenztitel:
European Conference on Fracture (21., 2016, Catania)
Konferenztitel:
ECF21
Tagungsort:
Catania, Italy
Jahr der Konferenz:
2016
Datum Beginn der Konferenz:
20.06.2016
Datum Ende der Konferenz:
24.06.2016
Jahr:
2016
Seiten von - bis:
3109-3116
Sprache:
Englisch
Abstract:
The paper deals with an anisotropic damage and fracture model for ductile metals. The phenomenological approach takes into account the effect of stress state on damage condition and damage strain evolution laws. Different branches of these criteria are considered corresponding to different damage and fracture mechanisms depending on stress triaxiality and the Lode parameter.
To validate these criteria new experiments with two-dimensionally loaded specimens are presented. Specimen’s geometry and loading conditions as well as their influence on stress states are discussed in detail. They allow combined shear-tension and shear-compression stress states. Digital image correlation technique has been used to analyze current strain fields in critical regions of the specimens. Corresponding numerical simulations of the experiments show that they cover a wide range of stress states.
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The paper deals with an anisotropic damage and fracture model for ductile metals. The phenomenological approach takes into account the effect of stress state on damage condition and damage strain evolution laws. Different branches of these criteria are considered corresponding to different damage and fracture mechanisms depending on stress triaxiality and the Lode parameter.
To validate these criteria new experiments with two-dimensionally loaded specimens are presented. Specimen’s geometry an... »