Achieving an extra-high-strength yet ductile steel by synergistic effects of TRIP and maraging

A novel type of austenite-martensite dual-phase laminate steel with a yield strength of 2.2 GPa, ultimate tensile strength of 2.5 GPa, uniform elongation of 9.4% and total elongation of 12% was produced. Such unexpectable mechanical properties were mainly due to the synergistic strengthening of nanolaminate microstructure, high densities of dislocations and nanoprecipitates. The high uniform elongation at very high stress could be attributed to the strongly enhanced work hardening rate, mainly enabled by transformation-induced plasticity (TRIP) of the austenite reverted by annealing, as well as the cooperative deformation and stress/strain partitioning between the austenite-martensite stacked nanolaminate.

Automated summary

A new type of austenite-martensite dual-phase laminate steel was produced, which had a yield strength of 2.2 GPa, ultimate tensile strength of 2.5 GPa, uniform elongation of 9.4%, and total elongation of 12%. These unexpected mechanical properties were mainly attributed to the synergistic strengthening of nanolaminate microstructure, high densities of dislocations, and nanoprecipitates. The high uniform elongation at very high stress could be attributed to the strongly enhanced work hardening rate, mainly enabled by transformation-induced plasticity (TRIP) of the austenite reverted by annealing, as well as the cooperative deformation and stress/strain partitioning between the austenite-martensite stacked nanolaminate.