Guan-Ju Cheng scite author profile

A wide variety of industrial applications require materials with high strength and ductility. Unfortunately, the strategies for increasing material strength, such as processing to create line defects (dislocations), tend to decrease ductility. We developed a strategy to circumvent this in inexpensive, medium manganese steel. Cold rolling followed by low-temperature tempering developed steel with metastable austenite grains embedded in a highly dislocated martensite matrix. This deformed and partitioned (D and P) process produced dislocation hardening but retained high ductility, both through the glide of intensive mobile dislocations and by allowing us to control martensitic transformation. The D and P strategy should apply to any other alloy with deformation-induced martensitic transformation and provides a pathway for the development of high-strength, high-ductility materials.

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Super-high-strength and formable medium Mn steel manufactured by warm rolling process

Cheng

et al. 2019

Acta Materialia

132

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Optimum properties of quenching and partitioning steels achieved by balancing fraction and stability of retained austenite

et al. 2018

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Warm ductility enhanced by austenite reversion in ultrafine-grained duplex steel

et al. 2018

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Microstrain and boundary misorientation evolution for recrystallized super DSS after deformation

Cheng

Yen

et al. 2020

Materials Chemistry and Physics

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Guan-Ju Cheng

High dislocation density–induced large ductility in deformed and partitioned steels

Super-high-strength and formable medium Mn steel manufactured by warm rolling process

Optimum properties of quenching and partitioning steels achieved by balancing fraction and stability of retained austenite

Warm ductility enhanced by austenite reversion in ultrafine-grained duplex steel

Microstrain and boundary misorientation evolution for recrystallized super DSS after deformation

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