This study investigated the microstructure and mechanical properties of hot-rolled and cold-rolled medium-Mn transformation-induced plasticity (TRIP) steel. The experimental steel, processed by quenching and tempering (Q & T) heat treatment, exhibited excellent mechanical properties for hot-rolled and Q & T steels (strength of 1050⁻1130 MPa and ductility of 16⁻34%), as well as for cold-rolled and Q & T steels (strength of 878⁻1373 MPa and ductility of 18⁻40%). The mechanical properties obtained after isothermal holding at 775 °C for one hour for cold-rolled/Q & T steel were superior to that of hot-rolled/Q & T steel. Excellent mechanical properties were attributed to the large amount of retai...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Conventional transformation induced plasticity (TRIP) steel (0.17C-1.52Si-1.61Mn-0.03Al, wt%) was pr...
Transformation-induced plasticity (TRIP) steels are one type of advanced high strength steels (AHSSs...
This study investigated the microstructure–tensile properties relationship and the retained au...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
The purpose of this work is to investigate the hot- and cold-rolling requirements to produce third-g...
The transformation behavior and tensile properties of an ultra-high-strength transformation-induced ...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
The requirement for lighter, safer and fuel efficient cars has created a major stir in the steel res...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Conventional transformation induced plasticity (TRIP) steel (0.17C-1.52Si-1.61Mn-0.03Al, wt%) was pr...
Transformation-induced plasticity (TRIP) steels are one type of advanced high strength steels (AHSSs...
This study investigated the microstructure–tensile properties relationship and the retained au...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
Eight medium manganese steels ranging from 10 to 15 wt pct Mn have been produced with varying levels...
The purpose of this work is to investigate the hot- and cold-rolling requirements to produce third-g...
The transformation behavior and tensile properties of an ultra-high-strength transformation-induced ...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
International audienceContinued efforts of the automotive industry to develop high strength, high fo...
The requirement for lighter, safer and fuel efficient cars has created a major stir in the steel res...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Developing medium-Mn steels (MMnS) demands a better understanding of the microstructure evolution du...
Conventional transformation induced plasticity (TRIP) steel (0.17C-1.52Si-1.61Mn-0.03Al, wt%) was pr...