Strain partitioning and localization were investigated in a high-Mn steel (17.1 wt.% Mn)
during tensile testing by a correlative probing approach including in-situ synchrotron X-ray …

Multi-phase metallic materials exhibit significant levels of strain partitioning and localization
when plastically deformed. Connecting these microstructural processes to macroscopic …

In situ microscopic-digital image correlation (µ-DIC) is used to investigate the strain
partitioning and strain localization behavior in a medium manganese steel. Continuous …

The temperature-dependent micromechanical behavior of medium-Mn transformation-
induced-plasticity (TRIP) steel with a nominal chemical composition of Fe-0.1 C-10Mn-2Al …

In-situ neutron diffraction during cyclic tension-compression loading (∼+ 3.5% to− 2.8%) of
a 17Mn-3Al-2Si-1Ni-0.06 C steel that exhibits concurrent transformation and twinning …

The twinning behavior, strain hardening and tensile properties of coarse-and fine-grained
Fe-13/18/22Mn-1.0 C twinning-induced plasticity (TWIP) steels were investigated by …

The potential effects of twinning induced plasticity have been taken into consideration to
further improve the mechanical properties of advanced high-strength steels. Accordingly the …

The evolution of the orientation relationship between mechanical twins and the surrounding
matrix with the degree of plastic deformation has been characterized at the nanoscale in …

The coupling of multiple advanced characterization techniques performed on a Fe-0.2 C-3.4
Mn-1.6 Si, austenitic-martensitic, Quench and Partition steel (Q&P) with ultrahigh strength …

The present study systematically investigated the effect of Si additions from 0 to 3 wt.% on
the deformation mechanisms of a 0.2 C-10Mn-3Al medium Mn steel. Two austenite-ferrite …