Add to ORKGThe improvement of the mechanical behaviour of high performance steels brings about a renewed interest for the work hardening rate resulting from deformation-induced martensitic transformation or mechanical twinning. Even if these mechanisms are known for quite a long time, the deformation - transformation interactions that they induce is not yet fully characterised and understood. This study aims at characterising the microstructure evolution of a Fe-Mn steel grade during straining thanks to TEM and high resolution OIM. Particular patterns of austenite - ε and α' martensite are found.SCOPUS: cp.kinfo:eu-repo/semantics/publishe
The micro-scale plastic deformation behavior of an austenitic Fe-1.2%C-7.0%Mn (in wt%) steel was stu...
The quantitative characterization of the microstructure evolution in high-Mn steel during deformatio...
Martensite that is mechanically induced from reverted austenite can be reverted again to austenite u...
The improvement of the mechanical behaviour of high performance steels brings about a renewed intere...
MasterHigh Mn steels have been assessed in exceptional ability of high tensile stress with good duct...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
Deformation microstructures of austenitic Fe-30Mn-(6-x)Si-xAl(x=2, 3 mass %) steels have been invest...
Low alloy transformation-induced plasticity aided (TRIP) steels have attracted much interest over th...
Abstract The successive evolution of martensitic transformation, twining and dislocation substructu...
High-manganese austenitic TWIP (TWinning Induced Plasticity) steels are currently under development ...
The research presented in this paper is part of a larger project concerning deformation behavior, mi...
Different initial microstructures with various bimodal grain size distributions (BGSD) were produced...
The mechanical behavior of high manganese TWIP (Twinning Induced Plasticity) steels is characterized...
This investigation proposes a pathway for generating optimum microstructure for a medium Mn containi...
The goal of the study consolidated in this thesis is to understand the mechanics in steels using mic...
The micro-scale plastic deformation behavior of an austenitic Fe-1.2%C-7.0%Mn (in wt%) steel was stu...
The quantitative characterization of the microstructure evolution in high-Mn steel during deformatio...
Martensite that is mechanically induced from reverted austenite can be reverted again to austenite u...
The improvement of the mechanical behaviour of high performance steels brings about a renewed intere...
MasterHigh Mn steels have been assessed in exceptional ability of high tensile stress with good duct...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
Deformation microstructures of austenitic Fe-30Mn-(6-x)Si-xAl(x=2, 3 mass %) steels have been invest...
Low alloy transformation-induced plasticity aided (TRIP) steels have attracted much interest over th...
Abstract The successive evolution of martensitic transformation, twining and dislocation substructu...
High-manganese austenitic TWIP (TWinning Induced Plasticity) steels are currently under development ...
The research presented in this paper is part of a larger project concerning deformation behavior, mi...
Different initial microstructures with various bimodal grain size distributions (BGSD) were produced...
The mechanical behavior of high manganese TWIP (Twinning Induced Plasticity) steels is characterized...
This investigation proposes a pathway for generating optimum microstructure for a medium Mn containi...
The goal of the study consolidated in this thesis is to understand the mechanics in steels using mic...
The micro-scale plastic deformation behavior of an austenitic Fe-1.2%C-7.0%Mn (in wt%) steel was stu...
The quantitative characterization of the microstructure evolution in high-Mn steel during deformatio...
Martensite that is mechanically induced from reverted austenite can be reverted again to austenite u...