Z. C. Li scite author profile

Z. C. Li

3Publications

6Citation Statements Received

113Citation Statements Given

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110

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Shandong University of Science and Technology

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Tuning austenite stability in a medium Mn steel and relationship to structure and mechanical properties

Mou

et al. 2020

Materials Science and Technology

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We study here the underlying factors that govern the stability of austenite in a medium Mn (Fe–0.18C–11Mn–3.8Al) (wt-%) steel. In this regard, a novel heat treatment involving intercritical quenching and tempering was designed to obtain high total elongation (TEL) and high ultimate tensile strength (UTS) in the cold-rolled steel. And the UTS and TEL approached 920–1150 MPa and 35–65%, respectively. The product of TEL and UTS (PSE) exceeded 40 GPa%, with a maximum value of 60 GPa%. A detailed analysis of microstructure before and after tensile deformation revealed that the TRIP effect occurred and the stability of austenite was predominantly governed by the grain sizes of austenite rather than the orientation of austenite grains. The theoretical analysis of work hardening data suggested that the superior elongation of medium Mn TRIP steel is related to the high stability of austenite and the cooperative deformation of ferrite.

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Design of an effective heat treatment involving intercritical hardening for high-strength–high elongation of 0.2C–1.5Al–(6–8.5)Mn-Fe TRIP steels: Microstructural evolution and deformation behaviour

Zhang

Mou

et al. 2020

Materials Science and Technology

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We propose an effective heat treatment involving a combination of intercritical hardening and tempering to obtain high strength–high ductility in hot-rolled 0.2C–1.5Al–(6–8.5)Mn–Fe transformation-induced plasticity (TRIP) steels. An excellent combination of high ultimate tensile strength of 1045–1380 MPa and total elongation of 34–39% was obtained when the steels were subjected to intercritical hardening at 630–650 °C and tempered at 200 °C. Intercritical hardening impacted the co-existence of austenite, ferrite and martensite, such that the deformation behaviour varied with the Mn content. The excellent properties of the steels were attributed to cumulative contribution of enhanced TRIP effect of austenite and ferrite and martensite constituents. The discontinuous TRIP eﬀect during tensile deformation involves stress relaxation and led to consequent enhancement of ductility.

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Thermal Deformation Behavior and Microstructure Evolution of Fe−8.5mn−1.5al Light−Weight Medium Manganese Steel

Liu

Sun

Zhang

et al. 2023

Preprint

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Z. C. Li

Tuning austenite stability in a medium Mn steel and relationship to structure and mechanical properties

Design of an effective heat treatment involving intercritical hardening for high-strength–high elongation of 0.2C–1.5Al–(6–8.5)Mn-Fe TRIP steels: Microstructural evolution and deformation behaviour

Thermal Deformation Behavior and Microstructure Evolution of Fe−8.5mn−1.5al Light−Weight Medium Manganese Steel

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