Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mechanisms. For ferrite–martensite dual-phase steel, for example, damage mechanisms such as martensite cracking or martensite–ferrite decohesion are activated with deformation, and discussed often in literature in relation to their detrimental role in triggering early failure in specific dual-phase steel grades. However, both the micromechanical processes involved and their direct influence on the macroscopic behavior are quite complex, and a deeper understanding thereof requires systematic analyses. To this end, an experimental–theoretical approach is employed here, focusing on three model dual-phase steel microstructures each deformed in three...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
Multi-phase microstructures with high mechanical contrast phases are prone to microscopic damage mec...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
This paper unravels micromechanical aspects of multi-phase metals whose microstructure comprises gra...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...
Ferritic–martensitic dual phase (DP) steels deform spatially in a highly heterogeneous manner, i.e. ...